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Uma Shankar71014b62012-05-25 21:21:44 +05301/*
2 * (C) Copyright 2011 - 2012 Samsung Electronics
3 * EXT4 filesystem implementation in Uboot by
4 * Uma Shankar <uma.shankar@samsung.com>
5 * Manjunatha C Achar <a.manjunatha@samsung.com>
6 *
7 * ext4ls and ext4load : Based on ext2 ls load support in Uboot.
8 *
9 * (C) Copyright 2004
10 * esd gmbh <www.esd-electronics.com>
11 * Reinhard Arlt <reinhard.arlt@esd-electronics.com>
12 *
13 * based on code from grub2 fs/ext2.c and fs/fshelp.c by
14 * GRUB -- GRand Unified Bootloader
15 * Copyright (C) 2003, 2004 Free Software Foundation, Inc.
16 *
Uma Shankara74a99a2012-05-25 21:22:49 +053017 * ext4write : Based on generic ext4 protocol.
18 *
Uma Shankar71014b62012-05-25 21:21:44 +053019 * This program is free software; you can redistribute it and/or modify
20 * it under the terms of the GNU General Public License as published by
21 * the Free Software Foundation; either version 2 of the License, or
22 * (at your option) any later version.
23 *
24 * This program is distributed in the hope that it will be useful,
25 * but WITHOUT ANY WARRANTY; without even the implied warranty of
26 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
27 * GNU General Public License for more details.
28 *
29 * You should have received a copy of the GNU General Public License
30 * along with this program; if not, write to the Free Software
31 * Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
32 */
33
34#include <common.h>
35#include <ext_common.h>
36#include <ext4fs.h>
37#include <malloc.h>
38#include <stddef.h>
39#include <linux/stat.h>
40#include <linux/time.h>
41#include <asm/byteorder.h>
42#include "ext4_common.h"
43
44struct ext2_data *ext4fs_root;
45struct ext2fs_node *ext4fs_file;
46uint32_t *ext4fs_indir1_block;
47int ext4fs_indir1_size;
48int ext4fs_indir1_blkno = -1;
49uint32_t *ext4fs_indir2_block;
50int ext4fs_indir2_size;
51int ext4fs_indir2_blkno = -1;
52
53uint32_t *ext4fs_indir3_block;
54int ext4fs_indir3_size;
55int ext4fs_indir3_blkno = -1;
56struct ext2_inode *g_parent_inode;
57static int symlinknest;
58
Stephen Warren4f8662d2012-10-22 06:43:50 +000059#if defined(CONFIG_EXT4_WRITE)
Uma Shankara74a99a2012-05-25 21:22:49 +053060uint32_t ext4fs_div_roundup(uint32_t size, uint32_t n)
61{
62 uint32_t res = size / n;
63 if (res * n != size)
64 res++;
65
66 return res;
67}
68
69void put_ext4(uint64_t off, void *buf, uint32_t size)
70{
71 uint64_t startblock;
72 uint64_t remainder;
73 unsigned char *temp_ptr = NULL;
Stephen Warren07639f22012-09-18 08:05:28 +000074 ALLOC_CACHE_ALIGN_BUFFER(unsigned char, sec_buf, SECTOR_SIZE);
Uma Shankara74a99a2012-05-25 21:22:49 +053075 struct ext_filesystem *fs = get_fs();
76
77 startblock = off / (uint64_t)SECTOR_SIZE;
78 startblock += part_offset;
79 remainder = off % (uint64_t)SECTOR_SIZE;
80 remainder &= SECTOR_SIZE - 1;
81
82 if (fs->dev_desc == NULL)
83 return;
84
85 if ((startblock + (size / SECTOR_SIZE)) >
86 (part_offset + fs->total_sect)) {
87 printf("part_offset is %lu\n", part_offset);
88 printf("total_sector is %llu\n", fs->total_sect);
89 printf("error: overflow occurs\n");
90 return;
91 }
92
93 if (remainder) {
94 if (fs->dev_desc->block_read) {
95 fs->dev_desc->block_read(fs->dev_desc->dev,
96 startblock, 1, sec_buf);
97 temp_ptr = sec_buf;
98 memcpy((temp_ptr + remainder),
99 (unsigned char *)buf, size);
100 fs->dev_desc->block_write(fs->dev_desc->dev,
101 startblock, 1, sec_buf);
102 }
103 } else {
104 if (size / SECTOR_SIZE != 0) {
105 fs->dev_desc->block_write(fs->dev_desc->dev,
106 startblock,
107 size / SECTOR_SIZE,
108 (unsigned long *)buf);
109 } else {
110 fs->dev_desc->block_read(fs->dev_desc->dev,
111 startblock, 1, sec_buf);
112 temp_ptr = sec_buf;
113 memcpy(temp_ptr, buf, size);
114 fs->dev_desc->block_write(fs->dev_desc->dev,
115 startblock, 1,
116 (unsigned long *)sec_buf);
117 }
118 }
119}
120
121static int _get_new_inode_no(unsigned char *buffer)
122{
123 struct ext_filesystem *fs = get_fs();
124 unsigned char input;
125 int operand, status;
126 int count = 1;
127 int j = 0;
128
129 /* get the blocksize of the filesystem */
130 unsigned char *ptr = buffer;
131 while (*ptr == 255) {
132 ptr++;
133 count += 8;
134 if (count > ext4fs_root->sblock.inodes_per_group)
135 return -1;
136 }
137
138 for (j = 0; j < fs->blksz; j++) {
139 input = *ptr;
140 int i = 0;
141 while (i <= 7) {
142 operand = 1 << i;
143 status = input & operand;
144 if (status) {
145 i++;
146 count++;
147 } else {
148 *ptr |= operand;
149 return count;
150 }
151 }
152 ptr = ptr + 1;
153 }
154
155 return -1;
156}
157
158static int _get_new_blk_no(unsigned char *buffer)
159{
160 unsigned char input;
161 int operand, status;
162 int count = 0;
163 int j = 0;
164 unsigned char *ptr = buffer;
165 struct ext_filesystem *fs = get_fs();
166
167 if (fs->blksz != 1024)
168 count = 0;
169 else
170 count = 1;
171
172 while (*ptr == 255) {
173 ptr++;
174 count += 8;
175 if (count == (fs->blksz * 8))
176 return -1;
177 }
178
179 for (j = 0; j < fs->blksz; j++) {
180 input = *ptr;
181 int i = 0;
182 while (i <= 7) {
183 operand = 1 << i;
184 status = input & operand;
185 if (status) {
186 i++;
187 count++;
188 } else {
189 *ptr |= operand;
190 return count;
191 }
192 }
193 ptr = ptr + 1;
194 }
195
196 return -1;
197}
198
199int ext4fs_set_block_bmap(long int blockno, unsigned char *buffer, int index)
200{
201 int i, remainder, status;
202 unsigned char *ptr = buffer;
203 unsigned char operand;
204 i = blockno / 8;
205 remainder = blockno % 8;
206 int blocksize = EXT2_BLOCK_SIZE(ext4fs_root);
207
208 i = i - (index * blocksize);
209 if (blocksize != 1024) {
210 ptr = ptr + i;
211 operand = 1 << remainder;
212 status = *ptr & operand;
213 if (status)
214 return -1;
215
216 *ptr = *ptr | operand;
217 return 0;
218 } else {
219 if (remainder == 0) {
220 ptr = ptr + i - 1;
221 operand = (1 << 7);
222 } else {
223 ptr = ptr + i;
224 operand = (1 << (remainder - 1));
225 }
226 status = *ptr & operand;
227 if (status)
228 return -1;
229
230 *ptr = *ptr | operand;
231 return 0;
232 }
233}
234
235void ext4fs_reset_block_bmap(long int blockno, unsigned char *buffer, int index)
236{
237 int i, remainder, status;
238 unsigned char *ptr = buffer;
239 unsigned char operand;
240 i = blockno / 8;
241 remainder = blockno % 8;
242 int blocksize = EXT2_BLOCK_SIZE(ext4fs_root);
243
244 i = i - (index * blocksize);
245 if (blocksize != 1024) {
246 ptr = ptr + i;
247 operand = (1 << remainder);
248 status = *ptr & operand;
249 if (status)
250 *ptr = *ptr & ~(operand);
251 } else {
252 if (remainder == 0) {
253 ptr = ptr + i - 1;
254 operand = (1 << 7);
255 } else {
256 ptr = ptr + i;
257 operand = (1 << (remainder - 1));
258 }
259 status = *ptr & operand;
260 if (status)
261 *ptr = *ptr & ~(operand);
262 }
263}
264
265int ext4fs_set_inode_bmap(int inode_no, unsigned char *buffer, int index)
266{
267 int i, remainder, status;
268 unsigned char *ptr = buffer;
269 unsigned char operand;
270
271 inode_no -= (index * ext4fs_root->sblock.inodes_per_group);
272 i = inode_no / 8;
273 remainder = inode_no % 8;
274 if (remainder == 0) {
275 ptr = ptr + i - 1;
276 operand = (1 << 7);
277 } else {
278 ptr = ptr + i;
279 operand = (1 << (remainder - 1));
280 }
281 status = *ptr & operand;
282 if (status)
283 return -1;
284
285 *ptr = *ptr | operand;
286
287 return 0;
288}
289
290void ext4fs_reset_inode_bmap(int inode_no, unsigned char *buffer, int index)
291{
292 int i, remainder, status;
293 unsigned char *ptr = buffer;
294 unsigned char operand;
295
296 inode_no -= (index * ext4fs_root->sblock.inodes_per_group);
297 i = inode_no / 8;
298 remainder = inode_no % 8;
299 if (remainder == 0) {
300 ptr = ptr + i - 1;
301 operand = (1 << 7);
302 } else {
303 ptr = ptr + i;
304 operand = (1 << (remainder - 1));
305 }
306 status = *ptr & operand;
307 if (status)
308 *ptr = *ptr & ~(operand);
309}
310
311int ext4fs_checksum_update(unsigned int i)
312{
313 struct ext2_block_group *desc;
314 struct ext_filesystem *fs = get_fs();
315 __u16 crc = 0;
316
Simon Glassea8e5192012-10-03 11:37:49 +0000317 desc = (struct ext2_block_group *)&fs->bgd[i];
Uma Shankara74a99a2012-05-25 21:22:49 +0530318 if (fs->sb->feature_ro_compat & EXT4_FEATURE_RO_COMPAT_GDT_CSUM) {
319 int offset = offsetof(struct ext2_block_group, bg_checksum);
320
321 crc = ext2fs_crc16(~0, fs->sb->unique_id,
322 sizeof(fs->sb->unique_id));
323 crc = ext2fs_crc16(crc, &i, sizeof(i));
324 crc = ext2fs_crc16(crc, desc, offset);
325 offset += sizeof(desc->bg_checksum); /* skip checksum */
326 assert(offset == sizeof(*desc));
327 }
328
329 return crc;
330}
331
332static int check_void_in_dentry(struct ext2_dirent *dir, char *filename)
333{
334 int dentry_length;
335 int sizeof_void_space;
336 int new_entry_byte_reqd;
337 short padding_factor = 0;
338
339 if (dir->namelen % 4 != 0)
340 padding_factor = 4 - (dir->namelen % 4);
341
342 dentry_length = sizeof(struct ext2_dirent) +
343 dir->namelen + padding_factor;
344 sizeof_void_space = dir->direntlen - dentry_length;
345 if (sizeof_void_space == 0)
346 return 0;
347
348 padding_factor = 0;
349 if (strlen(filename) % 4 != 0)
350 padding_factor = 4 - (strlen(filename) % 4);
351
352 new_entry_byte_reqd = strlen(filename) +
353 sizeof(struct ext2_dirent) + padding_factor;
354 if (sizeof_void_space >= new_entry_byte_reqd) {
355 dir->direntlen = dentry_length;
356 return sizeof_void_space;
357 }
358
359 return 0;
360}
361
362void ext4fs_update_parent_dentry(char *filename, int *p_ino, int file_type)
363{
364 unsigned int *zero_buffer = NULL;
365 char *root_first_block_buffer = NULL;
366 int direct_blk_idx;
367 long int root_blknr;
368 long int first_block_no_of_root = 0;
369 long int previous_blknr = -1;
370 int totalbytes = 0;
371 short int padding_factor = 0;
372 unsigned int new_entry_byte_reqd;
373 unsigned int last_entry_dirlen;
374 int sizeof_void_space = 0;
375 int templength = 0;
376 int inodeno;
377 int status;
378 struct ext_filesystem *fs = get_fs();
379 /* directory entry */
380 struct ext2_dirent *dir;
Uma Shankara74a99a2012-05-25 21:22:49 +0530381 char *temp_dir = NULL;
382
383 zero_buffer = zalloc(fs->blksz);
384 if (!zero_buffer) {
385 printf("No Memory\n");
386 return;
387 }
388 root_first_block_buffer = zalloc(fs->blksz);
389 if (!root_first_block_buffer) {
390 free(zero_buffer);
391 printf("No Memory\n");
392 return;
393 }
394restart:
395
396 /* read the block no allocated to a file */
397 for (direct_blk_idx = 0; direct_blk_idx < INDIRECT_BLOCKS;
398 direct_blk_idx++) {
399 root_blknr = read_allocated_block(g_parent_inode,
400 direct_blk_idx);
401 if (root_blknr == 0) {
402 first_block_no_of_root = previous_blknr;
403 break;
404 }
405 previous_blknr = root_blknr;
406 }
407
408 status = ext4fs_devread(first_block_no_of_root
409 * fs->sect_perblk,
410 0, fs->blksz, root_first_block_buffer);
411 if (status == 0)
412 goto fail;
413
414 if (ext4fs_log_journal(root_first_block_buffer, first_block_no_of_root))
415 goto fail;
416 dir = (struct ext2_dirent *)root_first_block_buffer;
Uma Shankara74a99a2012-05-25 21:22:49 +0530417 totalbytes = 0;
418 while (dir->direntlen > 0) {
419 /*
420 * blocksize-totalbytes because last directory length
421 * i.e. dir->direntlen is free availble space in the
422 * block that means it is a last entry of directory
423 * entry
424 */
425
426 /* traversing the each directory entry */
427 if (fs->blksz - totalbytes == dir->direntlen) {
428 if (strlen(filename) % 4 != 0)
429 padding_factor = 4 - (strlen(filename) % 4);
430
431 new_entry_byte_reqd = strlen(filename) +
432 sizeof(struct ext2_dirent) + padding_factor;
433 padding_factor = 0;
434 /*
435 * update last directory entry length to its
436 * length because we are creating new directory
437 * entry
438 */
439 if (dir->namelen % 4 != 0)
440 padding_factor = 4 - (dir->namelen % 4);
441
442 last_entry_dirlen = dir->namelen +
443 sizeof(struct ext2_dirent) + padding_factor;
444 if ((fs->blksz - totalbytes - last_entry_dirlen) <
445 new_entry_byte_reqd) {
446 printf("1st Block Full:Allocate new block\n");
447
448 if (direct_blk_idx == INDIRECT_BLOCKS - 1) {
449 printf("Directory exceeds limit\n");
450 goto fail;
451 }
452 g_parent_inode->b.blocks.dir_blocks
453 [direct_blk_idx] = ext4fs_get_new_blk_no();
454 if (g_parent_inode->b.blocks.dir_blocks
455 [direct_blk_idx] == -1) {
456 printf("no block left to assign\n");
457 goto fail;
458 }
459 put_ext4(((uint64_t)
460 (g_parent_inode->b.
461 blocks.dir_blocks[direct_blk_idx] *
462 fs->blksz)), zero_buffer, fs->blksz);
463 g_parent_inode->size =
464 g_parent_inode->size + fs->blksz;
465 g_parent_inode->blockcnt =
466 g_parent_inode->blockcnt + fs->sect_perblk;
467 if (ext4fs_put_metadata
468 (root_first_block_buffer,
469 first_block_no_of_root))
470 goto fail;
471 goto restart;
472 }
473 dir->direntlen = last_entry_dirlen;
474 break;
475 }
476
477 templength = dir->direntlen;
478 totalbytes = totalbytes + templength;
479 sizeof_void_space = check_void_in_dentry(dir, filename);
480 if (sizeof_void_space)
481 break;
482
483 dir = (struct ext2_dirent *)((char *)dir + templength);
Uma Shankara74a99a2012-05-25 21:22:49 +0530484 }
485
486 /* make a pointer ready for creating next directory entry */
487 templength = dir->direntlen;
488 totalbytes = totalbytes + templength;
489 dir = (struct ext2_dirent *)((char *)dir + templength);
Uma Shankara74a99a2012-05-25 21:22:49 +0530490
491 /* get the next available inode number */
492 inodeno = ext4fs_get_new_inode_no();
493 if (inodeno == -1) {
494 printf("no inode left to assign\n");
495 goto fail;
496 }
497 dir->inode = inodeno;
498 if (sizeof_void_space)
499 dir->direntlen = sizeof_void_space;
500 else
501 dir->direntlen = fs->blksz - totalbytes;
502
503 dir->namelen = strlen(filename);
504 dir->filetype = FILETYPE_REG; /* regular file */
505 temp_dir = (char *)dir;
506 temp_dir = temp_dir + sizeof(struct ext2_dirent);
507 memcpy(temp_dir, filename, strlen(filename));
508
509 *p_ino = inodeno;
510
511 /* update or write the 1st block of root inode */
512 if (ext4fs_put_metadata(root_first_block_buffer,
513 first_block_no_of_root))
514 goto fail;
515
516fail:
517 free(zero_buffer);
518 free(root_first_block_buffer);
519}
520
521static int search_dir(struct ext2_inode *parent_inode, char *dirname)
522{
523 int status;
524 int inodeno;
525 int totalbytes;
526 int templength;
527 int direct_blk_idx;
528 long int blknr;
529 int found = 0;
530 char *ptr = NULL;
531 unsigned char *block_buffer = NULL;
532 struct ext2_dirent *dir = NULL;
533 struct ext2_dirent *previous_dir = NULL;
534 struct ext_filesystem *fs = get_fs();
535
536 /* read the block no allocated to a file */
537 for (direct_blk_idx = 0; direct_blk_idx < INDIRECT_BLOCKS;
538 direct_blk_idx++) {
539 blknr = read_allocated_block(parent_inode, direct_blk_idx);
540 if (blknr == 0)
541 goto fail;
542
543 /* read the blocks of parenet inode */
544 block_buffer = zalloc(fs->blksz);
545 if (!block_buffer)
546 goto fail;
547
548 status = ext4fs_devread(blknr * fs->sect_perblk,
549 0, fs->blksz, (char *)block_buffer);
550 if (status == 0)
551 goto fail;
552
553 dir = (struct ext2_dirent *)block_buffer;
554 ptr = (char *)dir;
555 totalbytes = 0;
556 while (dir->direntlen >= 0) {
557 /*
558 * blocksize-totalbytes because last directory
559 * length i.e.,*dir->direntlen is free availble
560 * space in the block that means
561 * it is a last entry of directory entry
562 */
563 if (strlen(dirname) == dir->namelen) {
564 if (strncmp(dirname, ptr +
565 sizeof(struct ext2_dirent),
566 dir->namelen) == 0) {
567 previous_dir->direntlen +=
568 dir->direntlen;
569 inodeno = dir->inode;
570 dir->inode = 0;
571 found = 1;
572 break;
573 }
574 }
575
576 if (fs->blksz - totalbytes == dir->direntlen)
577 break;
578
579 /* traversing the each directory entry */
580 templength = dir->direntlen;
581 totalbytes = totalbytes + templength;
582 previous_dir = dir;
583 dir = (struct ext2_dirent *)((char *)dir + templength);
584 ptr = (char *)dir;
585 }
586
587 if (found == 1) {
588 free(block_buffer);
589 block_buffer = NULL;
590 return inodeno;
591 }
592
593 free(block_buffer);
594 block_buffer = NULL;
595 }
596
597fail:
598 free(block_buffer);
599
600 return -1;
601}
602
603static int find_dir_depth(char *dirname)
604{
605 char *token = strtok(dirname, "/");
606 int count = 0;
607 while (token != NULL) {
608 token = strtok(NULL, "/");
609 count++;
610 }
611 return count + 1 + 1;
612 /*
613 * for example for string /home/temp
614 * depth=home(1)+temp(1)+1 extra for NULL;
615 * so count is 4;
616 */
617}
618
619static int parse_path(char **arr, char *dirname)
620{
621 char *token = strtok(dirname, "/");
622 int i = 0;
623
624 /* add root */
625 arr[i] = zalloc(strlen("/") + 1);
626 if (!arr[i])
627 return -ENOMEM;
628
629 arr[i++] = "/";
630
631 /* add each path entry after root */
632 while (token != NULL) {
633 arr[i] = zalloc(strlen(token) + 1);
634 if (!arr[i])
635 return -ENOMEM;
636 memcpy(arr[i++], token, strlen(token));
637 token = strtok(NULL, "/");
638 }
639 arr[i] = NULL;
640
641 return 0;
642}
643
644int ext4fs_iget(int inode_no, struct ext2_inode *inode)
645{
646 if (ext4fs_read_inode(ext4fs_root, inode_no, inode) == 0)
647 return -1;
648
649 return 0;
650}
651
652/*
653 * Function: ext4fs_get_parent_inode_num
654 * Return Value: inode Number of the parent directory of file/Directory to be
655 * created
656 * dirname : Input parmater, input path name of the file/directory to be created
657 * dname : Output parameter, to be filled with the name of the directory
658 * extracted from dirname
659 */
660int ext4fs_get_parent_inode_num(const char *dirname, char *dname, int flags)
661{
662 int i;
663 int depth = 0;
664 int matched_inode_no;
665 int result_inode_no = -1;
666 char **ptr = NULL;
667 char *depth_dirname = NULL;
668 char *parse_dirname = NULL;
669 struct ext2_inode *parent_inode = NULL;
670 struct ext2_inode *first_inode = NULL;
671 struct ext2_inode temp_inode;
672
673 if (*dirname != '/') {
674 printf("Please supply Absolute path\n");
675 return -1;
676 }
677
678 /* TODO: input validation make equivalent to linux */
679 depth_dirname = zalloc(strlen(dirname) + 1);
680 if (!depth_dirname)
681 return -ENOMEM;
682
683 memcpy(depth_dirname, dirname, strlen(dirname));
684 depth = find_dir_depth(depth_dirname);
685 parse_dirname = zalloc(strlen(dirname) + 1);
686 if (!parse_dirname)
687 goto fail;
688 memcpy(parse_dirname, dirname, strlen(dirname));
689
690 /* allocate memory for each directory level */
691 ptr = zalloc((depth) * sizeof(char *));
692 if (!ptr)
693 goto fail;
694 if (parse_path(ptr, parse_dirname))
695 goto fail;
696 parent_inode = zalloc(sizeof(struct ext2_inode));
697 if (!parent_inode)
698 goto fail;
699 first_inode = zalloc(sizeof(struct ext2_inode));
700 if (!first_inode)
701 goto fail;
702 memcpy(parent_inode, ext4fs_root->inode, sizeof(struct ext2_inode));
703 memcpy(first_inode, parent_inode, sizeof(struct ext2_inode));
704 if (flags & F_FILE)
705 result_inode_no = EXT2_ROOT_INO;
706 for (i = 1; i < depth; i++) {
707 matched_inode_no = search_dir(parent_inode, ptr[i]);
708 if (matched_inode_no == -1) {
709 if (ptr[i + 1] == NULL && i == 1) {
710 result_inode_no = EXT2_ROOT_INO;
711 goto end;
712 } else {
713 if (ptr[i + 1] == NULL)
714 break;
715 printf("Invalid path\n");
716 result_inode_no = -1;
717 goto fail;
718 }
719 } else {
720 if (ptr[i + 1] != NULL) {
721 memset(parent_inode, '\0',
722 sizeof(struct ext2_inode));
723 if (ext4fs_iget(matched_inode_no,
724 parent_inode)) {
725 result_inode_no = -1;
726 goto fail;
727 }
728 result_inode_no = matched_inode_no;
729 } else {
730 break;
731 }
732 }
733 }
734
735end:
736 if (i == 1)
737 matched_inode_no = search_dir(first_inode, ptr[i]);
738 else
739 matched_inode_no = search_dir(parent_inode, ptr[i]);
740
741 if (matched_inode_no != -1) {
742 ext4fs_iget(matched_inode_no, &temp_inode);
743 if (temp_inode.mode & S_IFDIR) {
744 printf("It is a Directory\n");
745 result_inode_no = -1;
746 goto fail;
747 }
748 }
749
750 if (strlen(ptr[i]) > 256) {
751 result_inode_no = -1;
752 goto fail;
753 }
754 memcpy(dname, ptr[i], strlen(ptr[i]));
755
756fail:
757 free(depth_dirname);
758 free(parse_dirname);
759 free(ptr);
760 free(parent_inode);
761 free(first_inode);
762
763 return result_inode_no;
764}
765
766static int check_filename(char *filename, unsigned int blknr)
767{
768 unsigned int first_block_no_of_root;
769 int totalbytes = 0;
770 int templength = 0;
771 int status, inodeno;
772 int found = 0;
773 char *root_first_block_buffer = NULL;
774 char *root_first_block_addr = NULL;
775 struct ext2_dirent *dir = NULL;
776 struct ext2_dirent *previous_dir = NULL;
777 char *ptr = NULL;
778 struct ext_filesystem *fs = get_fs();
779
780 /* get the first block of root */
781 first_block_no_of_root = blknr;
782 root_first_block_buffer = zalloc(fs->blksz);
783 if (!root_first_block_buffer)
784 return -ENOMEM;
785 root_first_block_addr = root_first_block_buffer;
786 status = ext4fs_devread(first_block_no_of_root *
787 fs->sect_perblk, 0,
788 fs->blksz, root_first_block_buffer);
789 if (status == 0)
790 goto fail;
791
792 if (ext4fs_log_journal(root_first_block_buffer, first_block_no_of_root))
793 goto fail;
794 dir = (struct ext2_dirent *)root_first_block_buffer;
795 ptr = (char *)dir;
796 totalbytes = 0;
797 while (dir->direntlen >= 0) {
798 /*
799 * blocksize-totalbytes because last
800 * directory length i.e., *dir->direntlen
801 * is free availble space in the block that
802 * means it is a last entry of directory entry
803 */
804 if (strlen(filename) == dir->namelen) {
805 if (strncmp(filename, ptr + sizeof(struct ext2_dirent),
806 dir->namelen) == 0) {
807 printf("file found deleting\n");
808 previous_dir->direntlen += dir->direntlen;
809 inodeno = dir->inode;
810 dir->inode = 0;
811 found = 1;
812 break;
813 }
814 }
815
816 if (fs->blksz - totalbytes == dir->direntlen)
817 break;
818
819 /* traversing the each directory entry */
820 templength = dir->direntlen;
821 totalbytes = totalbytes + templength;
822 previous_dir = dir;
823 dir = (struct ext2_dirent *)((char *)dir + templength);
824 ptr = (char *)dir;
825 }
826
827
828 if (found == 1) {
829 if (ext4fs_put_metadata(root_first_block_addr,
830 first_block_no_of_root))
831 goto fail;
832 return inodeno;
833 }
834fail:
835 free(root_first_block_buffer);
836
837 return -1;
838}
839
840int ext4fs_filename_check(char *filename)
841{
842 short direct_blk_idx = 0;
843 long int blknr = -1;
844 int inodeno = -1;
845
846 /* read the block no allocated to a file */
847 for (direct_blk_idx = 0; direct_blk_idx < INDIRECT_BLOCKS;
848 direct_blk_idx++) {
849 blknr = read_allocated_block(g_parent_inode, direct_blk_idx);
850 if (blknr == 0)
851 break;
852 inodeno = check_filename(filename, blknr);
853 if (inodeno != -1)
854 return inodeno;
855 }
856
857 return -1;
858}
859
860long int ext4fs_get_new_blk_no(void)
861{
862 short i;
863 short status;
864 int remainder;
865 unsigned int bg_idx;
866 static int prev_bg_bitmap_index = -1;
867 unsigned int blk_per_grp = ext4fs_root->sblock.blocks_per_group;
868 struct ext_filesystem *fs = get_fs();
869 char *journal_buffer = zalloc(fs->blksz);
870 char *zero_buffer = zalloc(fs->blksz);
871 if (!journal_buffer || !zero_buffer)
872 goto fail;
Simon Glassea8e5192012-10-03 11:37:49 +0000873 struct ext2_block_group *bgd = (struct ext2_block_group *)fs->gdtable;
Uma Shankara74a99a2012-05-25 21:22:49 +0530874
875 if (fs->first_pass_bbmap == 0) {
876 for (i = 0; i < fs->no_blkgrp; i++) {
Simon Glassea8e5192012-10-03 11:37:49 +0000877 if (bgd[i].free_blocks) {
878 if (bgd[i].bg_flags & EXT4_BG_BLOCK_UNINIT) {
879 put_ext4(((uint64_t) (bgd[i].block_id *
Uma Shankara74a99a2012-05-25 21:22:49 +0530880 fs->blksz)),
881 zero_buffer, fs->blksz);
Simon Glassea8e5192012-10-03 11:37:49 +0000882 bgd[i].bg_flags =
883 bgd[i].
Uma Shankara74a99a2012-05-25 21:22:49 +0530884 bg_flags & ~EXT4_BG_BLOCK_UNINIT;
885 memcpy(fs->blk_bmaps[i], zero_buffer,
886 fs->blksz);
887 }
888 fs->curr_blkno =
889 _get_new_blk_no(fs->blk_bmaps[i]);
890 if (fs->curr_blkno == -1)
891 /* if block bitmap is completely fill */
892 continue;
893 fs->curr_blkno = fs->curr_blkno +
894 (i * fs->blksz * 8);
895 fs->first_pass_bbmap++;
Simon Glassea8e5192012-10-03 11:37:49 +0000896 bgd[i].free_blocks--;
Uma Shankara74a99a2012-05-25 21:22:49 +0530897 fs->sb->free_blocks--;
Simon Glassea8e5192012-10-03 11:37:49 +0000898 status = ext4fs_devread(bgd[i].block_id *
Uma Shankara74a99a2012-05-25 21:22:49 +0530899 fs->sect_perblk, 0,
900 fs->blksz,
901 journal_buffer);
902 if (status == 0)
903 goto fail;
904 if (ext4fs_log_journal(journal_buffer,
Simon Glassea8e5192012-10-03 11:37:49 +0000905 bgd[i].block_id))
Uma Shankara74a99a2012-05-25 21:22:49 +0530906 goto fail;
907 goto success;
908 } else {
909 debug("no space left on block group %d\n", i);
910 }
911 }
912
913 goto fail;
914 } else {
915restart:
916 fs->curr_blkno++;
917 /* get the blockbitmap index respective to blockno */
918 if (fs->blksz != 1024) {
919 bg_idx = fs->curr_blkno / blk_per_grp;
920 } else {
921 bg_idx = fs->curr_blkno / blk_per_grp;
922 remainder = fs->curr_blkno % blk_per_grp;
923 if (!remainder)
924 bg_idx--;
925 }
926
927 /*
928 * To skip completely filled block group bitmaps
929 * Optimize the block allocation
930 */
931 if (bg_idx >= fs->no_blkgrp)
932 goto fail;
933
Simon Glassea8e5192012-10-03 11:37:49 +0000934 if (bgd[bg_idx].free_blocks == 0) {
Uma Shankara74a99a2012-05-25 21:22:49 +0530935 debug("block group %u is full. Skipping\n", bg_idx);
936 fs->curr_blkno = fs->curr_blkno + blk_per_grp;
937 fs->curr_blkno--;
938 goto restart;
939 }
940
Simon Glassea8e5192012-10-03 11:37:49 +0000941 if (bgd[bg_idx].bg_flags & EXT4_BG_BLOCK_UNINIT) {
Uma Shankara74a99a2012-05-25 21:22:49 +0530942 memset(zero_buffer, '\0', fs->blksz);
Simon Glassea8e5192012-10-03 11:37:49 +0000943 put_ext4(((uint64_t) (bgd[bg_idx].block_id *
944 fs->blksz)), zero_buffer, fs->blksz);
Uma Shankara74a99a2012-05-25 21:22:49 +0530945 memcpy(fs->blk_bmaps[bg_idx], zero_buffer, fs->blksz);
Simon Glassea8e5192012-10-03 11:37:49 +0000946 bgd[bg_idx].bg_flags = bgd[bg_idx].bg_flags &
Uma Shankara74a99a2012-05-25 21:22:49 +0530947 ~EXT4_BG_BLOCK_UNINIT;
948 }
949
950 if (ext4fs_set_block_bmap(fs->curr_blkno, fs->blk_bmaps[bg_idx],
951 bg_idx) != 0) {
952 debug("going for restart for the block no %ld %u\n",
953 fs->curr_blkno, bg_idx);
954 goto restart;
955 }
956
957 /* journal backup */
958 if (prev_bg_bitmap_index != bg_idx) {
959 memset(journal_buffer, '\0', fs->blksz);
Simon Glassea8e5192012-10-03 11:37:49 +0000960 status = ext4fs_devread(bgd[bg_idx].block_id
Uma Shankara74a99a2012-05-25 21:22:49 +0530961 * fs->sect_perblk,
962 0, fs->blksz, journal_buffer);
963 if (status == 0)
964 goto fail;
965 if (ext4fs_log_journal(journal_buffer,
Simon Glassea8e5192012-10-03 11:37:49 +0000966 bgd[bg_idx].block_id))
Uma Shankara74a99a2012-05-25 21:22:49 +0530967 goto fail;
968
969 prev_bg_bitmap_index = bg_idx;
970 }
Simon Glassea8e5192012-10-03 11:37:49 +0000971 bgd[bg_idx].free_blocks--;
Uma Shankara74a99a2012-05-25 21:22:49 +0530972 fs->sb->free_blocks--;
973 goto success;
974 }
975success:
976 free(journal_buffer);
977 free(zero_buffer);
978
979 return fs->curr_blkno;
980fail:
981 free(journal_buffer);
982 free(zero_buffer);
983
984 return -1;
985}
986
987int ext4fs_get_new_inode_no(void)
988{
989 short i;
990 short status;
991 unsigned int ibmap_idx;
992 static int prev_inode_bitmap_index = -1;
993 unsigned int inodes_per_grp = ext4fs_root->sblock.inodes_per_group;
994 struct ext_filesystem *fs = get_fs();
995 char *journal_buffer = zalloc(fs->blksz);
996 char *zero_buffer = zalloc(fs->blksz);
997 if (!journal_buffer || !zero_buffer)
998 goto fail;
Simon Glassea8e5192012-10-03 11:37:49 +0000999 struct ext2_block_group *bgd = (struct ext2_block_group *)fs->gdtable;
Uma Shankara74a99a2012-05-25 21:22:49 +05301000
1001 if (fs->first_pass_ibmap == 0) {
1002 for (i = 0; i < fs->no_blkgrp; i++) {
Simon Glassea8e5192012-10-03 11:37:49 +00001003 if (bgd[i].free_inodes) {
1004 if (bgd[i].bg_itable_unused !=
1005 bgd[i].free_inodes)
1006 bgd[i].bg_itable_unused =
1007 bgd[i].free_inodes;
1008 if (bgd[i].bg_flags & EXT4_BG_INODE_UNINIT) {
Uma Shankara74a99a2012-05-25 21:22:49 +05301009 put_ext4(((uint64_t)
Simon Glassea8e5192012-10-03 11:37:49 +00001010 (bgd[i].inode_id *
1011 fs->blksz)),
Uma Shankara74a99a2012-05-25 21:22:49 +05301012 zero_buffer, fs->blksz);
Simon Glassea8e5192012-10-03 11:37:49 +00001013 bgd[i].bg_flags = bgd[i].bg_flags &
Uma Shankara74a99a2012-05-25 21:22:49 +05301014 ~EXT4_BG_INODE_UNINIT;
1015 memcpy(fs->inode_bmaps[i],
1016 zero_buffer, fs->blksz);
1017 }
1018 fs->curr_inode_no =
1019 _get_new_inode_no(fs->inode_bmaps[i]);
1020 if (fs->curr_inode_no == -1)
1021 /* if block bitmap is completely fill */
1022 continue;
1023 fs->curr_inode_no = fs->curr_inode_no +
1024 (i * inodes_per_grp);
1025 fs->first_pass_ibmap++;
Simon Glassea8e5192012-10-03 11:37:49 +00001026 bgd[i].free_inodes--;
1027 bgd[i].bg_itable_unused--;
Uma Shankara74a99a2012-05-25 21:22:49 +05301028 fs->sb->free_inodes--;
Simon Glassea8e5192012-10-03 11:37:49 +00001029 status = ext4fs_devread(bgd[i].inode_id *
Uma Shankara74a99a2012-05-25 21:22:49 +05301030 fs->sect_perblk, 0,
1031 fs->blksz,
1032 journal_buffer);
1033 if (status == 0)
1034 goto fail;
1035 if (ext4fs_log_journal(journal_buffer,
Simon Glassea8e5192012-10-03 11:37:49 +00001036 bgd[i].inode_id))
Uma Shankara74a99a2012-05-25 21:22:49 +05301037 goto fail;
1038 goto success;
1039 } else
1040 debug("no inode left on block group %d\n", i);
1041 }
1042 goto fail;
1043 } else {
1044restart:
1045 fs->curr_inode_no++;
1046 /* get the blockbitmap index respective to blockno */
1047 ibmap_idx = fs->curr_inode_no / inodes_per_grp;
Simon Glassea8e5192012-10-03 11:37:49 +00001048 if (bgd[ibmap_idx].bg_flags & EXT4_BG_INODE_UNINIT) {
Uma Shankara74a99a2012-05-25 21:22:49 +05301049 memset(zero_buffer, '\0', fs->blksz);
Simon Glassea8e5192012-10-03 11:37:49 +00001050 put_ext4(((uint64_t) (bgd[ibmap_idx].inode_id *
Uma Shankara74a99a2012-05-25 21:22:49 +05301051 fs->blksz)), zero_buffer,
1052 fs->blksz);
Simon Glassea8e5192012-10-03 11:37:49 +00001053 bgd[ibmap_idx].bg_flags =
1054 bgd[ibmap_idx].bg_flags & ~EXT4_BG_INODE_UNINIT;
Uma Shankara74a99a2012-05-25 21:22:49 +05301055 memcpy(fs->inode_bmaps[ibmap_idx], zero_buffer,
1056 fs->blksz);
1057 }
1058
1059 if (ext4fs_set_inode_bmap(fs->curr_inode_no,
1060 fs->inode_bmaps[ibmap_idx],
1061 ibmap_idx) != 0) {
1062 debug("going for restart for the block no %d %u\n",
1063 fs->curr_inode_no, ibmap_idx);
1064 goto restart;
1065 }
1066
1067 /* journal backup */
1068 if (prev_inode_bitmap_index != ibmap_idx) {
1069 memset(journal_buffer, '\0', fs->blksz);
Simon Glassea8e5192012-10-03 11:37:49 +00001070 status = ext4fs_devread(bgd[ibmap_idx].inode_id
Uma Shankara74a99a2012-05-25 21:22:49 +05301071 * fs->sect_perblk,
1072 0, fs->blksz, journal_buffer);
1073 if (status == 0)
1074 goto fail;
1075 if (ext4fs_log_journal(journal_buffer,
Simon Glassea8e5192012-10-03 11:37:49 +00001076 bgd[ibmap_idx].inode_id))
Uma Shankara74a99a2012-05-25 21:22:49 +05301077 goto fail;
1078 prev_inode_bitmap_index = ibmap_idx;
1079 }
Simon Glassea8e5192012-10-03 11:37:49 +00001080 if (bgd[ibmap_idx].bg_itable_unused !=
1081 bgd[ibmap_idx].free_inodes)
1082 bgd[ibmap_idx].bg_itable_unused =
1083 bgd[ibmap_idx].free_inodes;
1084 bgd[ibmap_idx].free_inodes--;
1085 bgd[ibmap_idx].bg_itable_unused--;
Uma Shankara74a99a2012-05-25 21:22:49 +05301086 fs->sb->free_inodes--;
1087 goto success;
1088 }
1089
1090success:
1091 free(journal_buffer);
1092 free(zero_buffer);
1093
1094 return fs->curr_inode_no;
1095fail:
1096 free(journal_buffer);
1097 free(zero_buffer);
1098
1099 return -1;
1100
1101}
1102
1103
1104static void alloc_single_indirect_block(struct ext2_inode *file_inode,
1105 unsigned int *total_remaining_blocks,
1106 unsigned int *no_blks_reqd)
1107{
1108 short i;
1109 short status;
1110 long int actual_block_no;
1111 long int si_blockno;
1112 /* si :single indirect */
1113 unsigned int *si_buffer = NULL;
1114 unsigned int *si_start_addr = NULL;
1115 struct ext_filesystem *fs = get_fs();
1116
1117 if (*total_remaining_blocks != 0) {
1118 si_buffer = zalloc(fs->blksz);
1119 if (!si_buffer) {
1120 printf("No Memory\n");
1121 return;
1122 }
1123 si_start_addr = si_buffer;
1124 si_blockno = ext4fs_get_new_blk_no();
1125 if (si_blockno == -1) {
1126 printf("no block left to assign\n");
1127 goto fail;
1128 }
1129 (*no_blks_reqd)++;
1130 debug("SIPB %ld: %u\n", si_blockno, *total_remaining_blocks);
1131
1132 status = ext4fs_devread(si_blockno * fs->sect_perblk,
1133 0, fs->blksz, (char *)si_buffer);
1134 memset(si_buffer, '\0', fs->blksz);
1135 if (status == 0)
1136 goto fail;
1137
1138 for (i = 0; i < (fs->blksz / sizeof(int)); i++) {
1139 actual_block_no = ext4fs_get_new_blk_no();
1140 if (actual_block_no == -1) {
1141 printf("no block left to assign\n");
1142 goto fail;
1143 }
1144 *si_buffer = actual_block_no;
1145 debug("SIAB %u: %u\n", *si_buffer,
1146 *total_remaining_blocks);
1147
1148 si_buffer++;
1149 (*total_remaining_blocks)--;
1150 if (*total_remaining_blocks == 0)
1151 break;
1152 }
1153
1154 /* write the block to disk */
1155 put_ext4(((uint64_t) (si_blockno * fs->blksz)),
1156 si_start_addr, fs->blksz);
1157 file_inode->b.blocks.indir_block = si_blockno;
1158 }
1159fail:
1160 free(si_start_addr);
1161}
1162
1163static void alloc_double_indirect_block(struct ext2_inode *file_inode,
1164 unsigned int *total_remaining_blocks,
1165 unsigned int *no_blks_reqd)
1166{
1167 short i;
1168 short j;
1169 short status;
1170 long int actual_block_no;
1171 /* di:double indirect */
1172 long int di_blockno_parent;
1173 long int di_blockno_child;
1174 unsigned int *di_parent_buffer = NULL;
1175 unsigned int *di_child_buff = NULL;
1176 unsigned int *di_block_start_addr = NULL;
1177 unsigned int *di_child_buff_start = NULL;
1178 struct ext_filesystem *fs = get_fs();
1179
1180 if (*total_remaining_blocks != 0) {
1181 /* double indirect parent block connecting to inode */
1182 di_blockno_parent = ext4fs_get_new_blk_no();
1183 if (di_blockno_parent == -1) {
1184 printf("no block left to assign\n");
1185 goto fail;
1186 }
1187 di_parent_buffer = zalloc(fs->blksz);
1188 if (!di_parent_buffer)
1189 goto fail;
1190
1191 di_block_start_addr = di_parent_buffer;
1192 (*no_blks_reqd)++;
1193 debug("DIPB %ld: %u\n", di_blockno_parent,
1194 *total_remaining_blocks);
1195
1196 status = ext4fs_devread(di_blockno_parent *
1197 fs->sect_perblk, 0,
1198 fs->blksz, (char *)di_parent_buffer);
Łukasz Majewskib55a7932012-12-05 08:06:39 +00001199
1200 if (!status) {
1201 printf("%s: Device read error!\n", __func__);
1202 goto fail;
1203 }
Uma Shankara74a99a2012-05-25 21:22:49 +05301204 memset(di_parent_buffer, '\0', fs->blksz);
1205
1206 /*
1207 * start:for each double indirect parent
1208 * block create one more block
1209 */
1210 for (i = 0; i < (fs->blksz / sizeof(int)); i++) {
1211 di_blockno_child = ext4fs_get_new_blk_no();
1212 if (di_blockno_child == -1) {
1213 printf("no block left to assign\n");
1214 goto fail;
1215 }
1216 di_child_buff = zalloc(fs->blksz);
1217 if (!di_child_buff)
1218 goto fail;
1219
1220 di_child_buff_start = di_child_buff;
1221 *di_parent_buffer = di_blockno_child;
1222 di_parent_buffer++;
1223 (*no_blks_reqd)++;
1224 debug("DICB %ld: %u\n", di_blockno_child,
1225 *total_remaining_blocks);
1226
1227 status = ext4fs_devread(di_blockno_child *
1228 fs->sect_perblk, 0,
1229 fs->blksz,
1230 (char *)di_child_buff);
Łukasz Majewskib55a7932012-12-05 08:06:39 +00001231
1232 if (!status) {
1233 printf("%s: Device read error!\n", __func__);
1234 goto fail;
1235 }
Uma Shankara74a99a2012-05-25 21:22:49 +05301236 memset(di_child_buff, '\0', fs->blksz);
1237 /* filling of actual datablocks for each child */
1238 for (j = 0; j < (fs->blksz / sizeof(int)); j++) {
1239 actual_block_no = ext4fs_get_new_blk_no();
1240 if (actual_block_no == -1) {
1241 printf("no block left to assign\n");
1242 goto fail;
1243 }
1244 *di_child_buff = actual_block_no;
1245 debug("DIAB %ld: %u\n", actual_block_no,
1246 *total_remaining_blocks);
1247
1248 di_child_buff++;
1249 (*total_remaining_blocks)--;
1250 if (*total_remaining_blocks == 0)
1251 break;
1252 }
1253 /* write the block table */
1254 put_ext4(((uint64_t) (di_blockno_child * fs->blksz)),
1255 di_child_buff_start, fs->blksz);
1256 free(di_child_buff_start);
1257 di_child_buff_start = NULL;
1258
1259 if (*total_remaining_blocks == 0)
1260 break;
1261 }
1262 put_ext4(((uint64_t) (di_blockno_parent * fs->blksz)),
1263 di_block_start_addr, fs->blksz);
1264 file_inode->b.blocks.double_indir_block = di_blockno_parent;
1265 }
1266fail:
1267 free(di_block_start_addr);
1268}
1269
1270static void alloc_triple_indirect_block(struct ext2_inode *file_inode,
1271 unsigned int *total_remaining_blocks,
1272 unsigned int *no_blks_reqd)
1273{
1274 short i;
1275 short j;
1276 short k;
1277 long int actual_block_no;
1278 /* ti: Triple Indirect */
1279 long int ti_gp_blockno;
1280 long int ti_parent_blockno;
1281 long int ti_child_blockno;
1282 unsigned int *ti_gp_buff = NULL;
1283 unsigned int *ti_parent_buff = NULL;
1284 unsigned int *ti_child_buff = NULL;
1285 unsigned int *ti_gp_buff_start_addr = NULL;
1286 unsigned int *ti_pbuff_start_addr = NULL;
1287 unsigned int *ti_cbuff_start_addr = NULL;
1288 struct ext_filesystem *fs = get_fs();
1289 if (*total_remaining_blocks != 0) {
1290 /* triple indirect grand parent block connecting to inode */
1291 ti_gp_blockno = ext4fs_get_new_blk_no();
1292 if (ti_gp_blockno == -1) {
1293 printf("no block left to assign\n");
1294 goto fail;
1295 }
1296 ti_gp_buff = zalloc(fs->blksz);
1297 if (!ti_gp_buff)
1298 goto fail;
1299
1300 ti_gp_buff_start_addr = ti_gp_buff;
1301 (*no_blks_reqd)++;
1302 debug("TIGPB %ld: %u\n", ti_gp_blockno,
1303 *total_remaining_blocks);
1304
1305 /* for each 4 byte grand parent entry create one more block */
1306 for (i = 0; i < (fs->blksz / sizeof(int)); i++) {
1307 ti_parent_blockno = ext4fs_get_new_blk_no();
1308 if (ti_parent_blockno == -1) {
1309 printf("no block left to assign\n");
1310 goto fail;
1311 }
1312 ti_parent_buff = zalloc(fs->blksz);
1313 if (!ti_parent_buff)
1314 goto fail;
1315
1316 ti_pbuff_start_addr = ti_parent_buff;
1317 *ti_gp_buff = ti_parent_blockno;
1318 ti_gp_buff++;
1319 (*no_blks_reqd)++;
1320 debug("TIPB %ld: %u\n", ti_parent_blockno,
1321 *total_remaining_blocks);
1322
1323 /* for each 4 byte entry parent create one more block */
1324 for (j = 0; j < (fs->blksz / sizeof(int)); j++) {
1325 ti_child_blockno = ext4fs_get_new_blk_no();
1326 if (ti_child_blockno == -1) {
1327 printf("no block left assign\n");
1328 goto fail;
1329 }
1330 ti_child_buff = zalloc(fs->blksz);
1331 if (!ti_child_buff)
1332 goto fail;
1333
1334 ti_cbuff_start_addr = ti_child_buff;
1335 *ti_parent_buff = ti_child_blockno;
1336 ti_parent_buff++;
1337 (*no_blks_reqd)++;
1338 debug("TICB %ld: %u\n", ti_parent_blockno,
1339 *total_remaining_blocks);
1340
1341 /* fill actual datablocks for each child */
1342 for (k = 0; k < (fs->blksz / sizeof(int));
1343 k++) {
1344 actual_block_no =
1345 ext4fs_get_new_blk_no();
1346 if (actual_block_no == -1) {
1347 printf("no block left\n");
1348 goto fail;
1349 }
1350 *ti_child_buff = actual_block_no;
1351 debug("TIAB %ld: %u\n", actual_block_no,
1352 *total_remaining_blocks);
1353
1354 ti_child_buff++;
1355 (*total_remaining_blocks)--;
1356 if (*total_remaining_blocks == 0)
1357 break;
1358 }
1359 /* write the child block */
1360 put_ext4(((uint64_t) (ti_child_blockno *
1361 fs->blksz)),
1362 ti_cbuff_start_addr, fs->blksz);
1363 free(ti_cbuff_start_addr);
1364
1365 if (*total_remaining_blocks == 0)
1366 break;
1367 }
1368 /* write the parent block */
1369 put_ext4(((uint64_t) (ti_parent_blockno * fs->blksz)),
1370 ti_pbuff_start_addr, fs->blksz);
1371 free(ti_pbuff_start_addr);
1372
1373 if (*total_remaining_blocks == 0)
1374 break;
1375 }
1376 /* write the grand parent block */
1377 put_ext4(((uint64_t) (ti_gp_blockno * fs->blksz)),
1378 ti_gp_buff_start_addr, fs->blksz);
1379 file_inode->b.blocks.triple_indir_block = ti_gp_blockno;
1380 }
1381fail:
1382 free(ti_gp_buff_start_addr);
1383}
1384
1385void ext4fs_allocate_blocks(struct ext2_inode *file_inode,
1386 unsigned int total_remaining_blocks,
1387 unsigned int *total_no_of_block)
1388{
1389 short i;
1390 long int direct_blockno;
1391 unsigned int no_blks_reqd = 0;
1392
1393 /* allocation of direct blocks */
1394 for (i = 0; i < INDIRECT_BLOCKS; i++) {
1395 direct_blockno = ext4fs_get_new_blk_no();
1396 if (direct_blockno == -1) {
1397 printf("no block left to assign\n");
1398 return;
1399 }
1400 file_inode->b.blocks.dir_blocks[i] = direct_blockno;
1401 debug("DB %ld: %u\n", direct_blockno, total_remaining_blocks);
1402
1403 total_remaining_blocks--;
1404 if (total_remaining_blocks == 0)
1405 break;
1406 }
1407
1408 alloc_single_indirect_block(file_inode, &total_remaining_blocks,
1409 &no_blks_reqd);
1410 alloc_double_indirect_block(file_inode, &total_remaining_blocks,
1411 &no_blks_reqd);
1412 alloc_triple_indirect_block(file_inode, &total_remaining_blocks,
1413 &no_blks_reqd);
1414 *total_no_of_block += no_blks_reqd;
1415}
1416
1417#endif
1418
Uma Shankar71014b62012-05-25 21:21:44 +05301419static struct ext4_extent_header *ext4fs_get_extent_block
1420 (struct ext2_data *data, char *buf,
1421 struct ext4_extent_header *ext_block,
1422 uint32_t fileblock, int log2_blksz)
1423{
1424 struct ext4_extent_idx *index;
1425 unsigned long long block;
1426 struct ext_filesystem *fs = get_fs();
1427 int i;
1428
1429 while (1) {
1430 index = (struct ext4_extent_idx *)(ext_block + 1);
1431
1432 if (le32_to_cpu(ext_block->eh_magic) != EXT4_EXT_MAGIC)
1433 return 0;
1434
1435 if (ext_block->eh_depth == 0)
1436 return ext_block;
1437 i = -1;
1438 do {
1439 i++;
1440 if (i >= le32_to_cpu(ext_block->eh_entries))
1441 break;
1442 } while (fileblock > le32_to_cpu(index[i].ei_block));
1443
1444 if (--i < 0)
1445 return 0;
1446
1447 block = le32_to_cpu(index[i].ei_leaf_hi);
1448 block = (block << 32) + le32_to_cpu(index[i].ei_leaf_lo);
1449
1450 if (ext4fs_devread(block << log2_blksz, 0, fs->blksz, buf))
1451 ext_block = (struct ext4_extent_header *)buf;
1452 else
1453 return 0;
1454 }
1455}
1456
1457static int ext4fs_blockgroup
1458 (struct ext2_data *data, int group, struct ext2_block_group *blkgrp)
1459{
1460 long int blkno;
1461 unsigned int blkoff, desc_per_blk;
1462
1463 desc_per_blk = EXT2_BLOCK_SIZE(data) / sizeof(struct ext2_block_group);
1464
1465 blkno = __le32_to_cpu(data->sblock.first_data_block) + 1 +
1466 group / desc_per_blk;
1467 blkoff = (group % desc_per_blk) * sizeof(struct ext2_block_group);
1468
1469 debug("ext4fs read %d group descriptor (blkno %ld blkoff %u)\n",
1470 group, blkno, blkoff);
1471
1472 return ext4fs_devread(blkno << LOG2_EXT2_BLOCK_SIZE(data),
1473 blkoff, sizeof(struct ext2_block_group),
1474 (char *)blkgrp);
1475}
1476
1477int ext4fs_read_inode(struct ext2_data *data, int ino, struct ext2_inode *inode)
1478{
1479 struct ext2_block_group blkgrp;
1480 struct ext2_sblock *sblock = &data->sblock;
1481 struct ext_filesystem *fs = get_fs();
1482 int inodes_per_block, status;
1483 long int blkno;
1484 unsigned int blkoff;
1485
1486 /* It is easier to calculate if the first inode is 0. */
1487 ino--;
1488 status = ext4fs_blockgroup(data, ino / __le32_to_cpu
1489 (sblock->inodes_per_group), &blkgrp);
1490 if (status == 0)
1491 return 0;
1492
1493 inodes_per_block = EXT2_BLOCK_SIZE(data) / fs->inodesz;
1494 blkno = __le32_to_cpu(blkgrp.inode_table_id) +
1495 (ino % __le32_to_cpu(sblock->inodes_per_group)) / inodes_per_block;
1496 blkoff = (ino % inodes_per_block) * fs->inodesz;
1497 /* Read the inode. */
1498 status = ext4fs_devread(blkno << LOG2_EXT2_BLOCK_SIZE(data), blkoff,
1499 sizeof(struct ext2_inode), (char *)inode);
1500 if (status == 0)
1501 return 0;
1502
1503 return 1;
1504}
1505
1506long int read_allocated_block(struct ext2_inode *inode, int fileblock)
1507{
1508 long int blknr;
1509 int blksz;
1510 int log2_blksz;
1511 int status;
1512 long int rblock;
1513 long int perblock_parent;
1514 long int perblock_child;
1515 unsigned long long start;
1516 /* get the blocksize of the filesystem */
1517 blksz = EXT2_BLOCK_SIZE(ext4fs_root);
1518 log2_blksz = LOG2_EXT2_BLOCK_SIZE(ext4fs_root);
1519 if (le32_to_cpu(inode->flags) & EXT4_EXTENTS_FL) {
1520 char *buf = zalloc(blksz);
1521 if (!buf)
1522 return -ENOMEM;
1523 struct ext4_extent_header *ext_block;
1524 struct ext4_extent *extent;
1525 int i = -1;
1526 ext_block = ext4fs_get_extent_block(ext4fs_root, buf,
1527 (struct ext4_extent_header
1528 *)inode->b.
1529 blocks.dir_blocks,
1530 fileblock, log2_blksz);
1531 if (!ext_block) {
1532 printf("invalid extent block\n");
1533 free(buf);
1534 return -EINVAL;
1535 }
1536
1537 extent = (struct ext4_extent *)(ext_block + 1);
1538
1539 do {
1540 i++;
1541 if (i >= le32_to_cpu(ext_block->eh_entries))
1542 break;
1543 } while (fileblock >= le32_to_cpu(extent[i].ee_block));
1544 if (--i >= 0) {
1545 fileblock -= le32_to_cpu(extent[i].ee_block);
1546 if (fileblock >= le32_to_cpu(extent[i].ee_len)) {
1547 free(buf);
1548 return 0;
1549 }
1550
1551 start = le32_to_cpu(extent[i].ee_start_hi);
1552 start = (start << 32) +
1553 le32_to_cpu(extent[i].ee_start_lo);
1554 free(buf);
1555 return fileblock + start;
1556 }
1557
1558 printf("Extent Error\n");
1559 free(buf);
1560 return -1;
1561 }
1562
1563 /* Direct blocks. */
1564 if (fileblock < INDIRECT_BLOCKS)
1565 blknr = __le32_to_cpu(inode->b.blocks.dir_blocks[fileblock]);
1566
1567 /* Indirect. */
1568 else if (fileblock < (INDIRECT_BLOCKS + (blksz / 4))) {
1569 if (ext4fs_indir1_block == NULL) {
1570 ext4fs_indir1_block = zalloc(blksz);
1571 if (ext4fs_indir1_block == NULL) {
1572 printf("** SI ext2fs read block (indir 1)"
1573 "malloc failed. **\n");
1574 return -1;
1575 }
1576 ext4fs_indir1_size = blksz;
1577 ext4fs_indir1_blkno = -1;
1578 }
1579 if (blksz != ext4fs_indir1_size) {
1580 free(ext4fs_indir1_block);
1581 ext4fs_indir1_block = NULL;
1582 ext4fs_indir1_size = 0;
1583 ext4fs_indir1_blkno = -1;
1584 ext4fs_indir1_block = zalloc(blksz);
1585 if (ext4fs_indir1_block == NULL) {
1586 printf("** SI ext2fs read block (indir 1):"
1587 "malloc failed. **\n");
1588 return -1;
1589 }
1590 ext4fs_indir1_size = blksz;
1591 }
1592 if ((__le32_to_cpu(inode->b.blocks.indir_block) <<
1593 log2_blksz) != ext4fs_indir1_blkno) {
1594 status =
1595 ext4fs_devread(__le32_to_cpu
1596 (inode->b.blocks.
1597 indir_block) << log2_blksz, 0,
1598 blksz, (char *)ext4fs_indir1_block);
1599 if (status == 0) {
1600 printf("** SI ext2fs read block (indir 1)"
1601 "failed. **\n");
1602 return 0;
1603 }
1604 ext4fs_indir1_blkno =
1605 __le32_to_cpu(inode->b.blocks.
1606 indir_block) << log2_blksz;
1607 }
1608 blknr = __le32_to_cpu(ext4fs_indir1_block
1609 [fileblock - INDIRECT_BLOCKS]);
1610 }
1611 /* Double indirect. */
1612 else if (fileblock < (INDIRECT_BLOCKS + (blksz / 4 *
1613 (blksz / 4 + 1)))) {
1614
1615 long int perblock = blksz / 4;
1616 long int rblock = fileblock - (INDIRECT_BLOCKS + blksz / 4);
1617
1618 if (ext4fs_indir1_block == NULL) {
1619 ext4fs_indir1_block = zalloc(blksz);
1620 if (ext4fs_indir1_block == NULL) {
1621 printf("** DI ext2fs read block (indir 2 1)"
1622 "malloc failed. **\n");
1623 return -1;
1624 }
1625 ext4fs_indir1_size = blksz;
1626 ext4fs_indir1_blkno = -1;
1627 }
1628 if (blksz != ext4fs_indir1_size) {
1629 free(ext4fs_indir1_block);
1630 ext4fs_indir1_block = NULL;
1631 ext4fs_indir1_size = 0;
1632 ext4fs_indir1_blkno = -1;
1633 ext4fs_indir1_block = zalloc(blksz);
1634 if (ext4fs_indir1_block == NULL) {
1635 printf("** DI ext2fs read block (indir 2 1)"
1636 "malloc failed. **\n");
1637 return -1;
1638 }
1639 ext4fs_indir1_size = blksz;
1640 }
1641 if ((__le32_to_cpu(inode->b.blocks.double_indir_block) <<
1642 log2_blksz) != ext4fs_indir1_blkno) {
1643 status =
1644 ext4fs_devread(__le32_to_cpu
1645 (inode->b.blocks.
1646 double_indir_block) << log2_blksz,
1647 0, blksz,
1648 (char *)ext4fs_indir1_block);
1649 if (status == 0) {
1650 printf("** DI ext2fs read block (indir 2 1)"
1651 "failed. **\n");
1652 return -1;
1653 }
1654 ext4fs_indir1_blkno =
1655 __le32_to_cpu(inode->b.blocks.double_indir_block) <<
1656 log2_blksz;
1657 }
1658
1659 if (ext4fs_indir2_block == NULL) {
1660 ext4fs_indir2_block = zalloc(blksz);
1661 if (ext4fs_indir2_block == NULL) {
1662 printf("** DI ext2fs read block (indir 2 2)"
1663 "malloc failed. **\n");
1664 return -1;
1665 }
1666 ext4fs_indir2_size = blksz;
1667 ext4fs_indir2_blkno = -1;
1668 }
1669 if (blksz != ext4fs_indir2_size) {
1670 free(ext4fs_indir2_block);
1671 ext4fs_indir2_block = NULL;
1672 ext4fs_indir2_size = 0;
1673 ext4fs_indir2_blkno = -1;
1674 ext4fs_indir2_block = zalloc(blksz);
1675 if (ext4fs_indir2_block == NULL) {
1676 printf("** DI ext2fs read block (indir 2 2)"
1677 "malloc failed. **\n");
1678 return -1;
1679 }
1680 ext4fs_indir2_size = blksz;
1681 }
1682 if ((__le32_to_cpu(ext4fs_indir1_block[rblock / perblock]) <<
1683 log2_blksz) != ext4fs_indir2_blkno) {
1684 status = ext4fs_devread(__le32_to_cpu
1685 (ext4fs_indir1_block
1686 [rblock /
1687 perblock]) << log2_blksz, 0,
1688 blksz,
1689 (char *)ext4fs_indir2_block);
1690 if (status == 0) {
1691 printf("** DI ext2fs read block (indir 2 2)"
1692 "failed. **\n");
1693 return -1;
1694 }
1695 ext4fs_indir2_blkno =
1696 __le32_to_cpu(ext4fs_indir1_block[rblock
1697 /
1698 perblock]) <<
1699 log2_blksz;
1700 }
1701 blknr = __le32_to_cpu(ext4fs_indir2_block[rblock % perblock]);
1702 }
1703 /* Tripple indirect. */
1704 else {
1705 rblock = fileblock - (INDIRECT_BLOCKS + blksz / 4 +
1706 (blksz / 4 * blksz / 4));
1707 perblock_child = blksz / 4;
1708 perblock_parent = ((blksz / 4) * (blksz / 4));
1709
1710 if (ext4fs_indir1_block == NULL) {
1711 ext4fs_indir1_block = zalloc(blksz);
1712 if (ext4fs_indir1_block == NULL) {
1713 printf("** TI ext2fs read block (indir 2 1)"
1714 "malloc failed. **\n");
1715 return -1;
1716 }
1717 ext4fs_indir1_size = blksz;
1718 ext4fs_indir1_blkno = -1;
1719 }
1720 if (blksz != ext4fs_indir1_size) {
1721 free(ext4fs_indir1_block);
1722 ext4fs_indir1_block = NULL;
1723 ext4fs_indir1_size = 0;
1724 ext4fs_indir1_blkno = -1;
1725 ext4fs_indir1_block = zalloc(blksz);
1726 if (ext4fs_indir1_block == NULL) {
1727 printf("** TI ext2fs read block (indir 2 1)"
1728 "malloc failed. **\n");
1729 return -1;
1730 }
1731 ext4fs_indir1_size = blksz;
1732 }
1733 if ((__le32_to_cpu(inode->b.blocks.triple_indir_block) <<
1734 log2_blksz) != ext4fs_indir1_blkno) {
1735 status = ext4fs_devread
1736 (__le32_to_cpu(inode->b.blocks.triple_indir_block)
1737 << log2_blksz, 0, blksz,
1738 (char *)ext4fs_indir1_block);
1739 if (status == 0) {
1740 printf("** TI ext2fs read block (indir 2 1)"
1741 "failed. **\n");
1742 return -1;
1743 }
1744 ext4fs_indir1_blkno =
1745 __le32_to_cpu(inode->b.blocks.triple_indir_block) <<
1746 log2_blksz;
1747 }
1748
1749 if (ext4fs_indir2_block == NULL) {
1750 ext4fs_indir2_block = zalloc(blksz);
1751 if (ext4fs_indir2_block == NULL) {
1752 printf("** TI ext2fs read block (indir 2 2)"
1753 "malloc failed. **\n");
1754 return -1;
1755 }
1756 ext4fs_indir2_size = blksz;
1757 ext4fs_indir2_blkno = -1;
1758 }
1759 if (blksz != ext4fs_indir2_size) {
1760 free(ext4fs_indir2_block);
1761 ext4fs_indir2_block = NULL;
1762 ext4fs_indir2_size = 0;
1763 ext4fs_indir2_blkno = -1;
1764 ext4fs_indir2_block = zalloc(blksz);
1765 if (ext4fs_indir2_block == NULL) {
1766 printf("** TI ext2fs read block (indir 2 2)"
1767 "malloc failed. **\n");
1768 return -1;
1769 }
1770 ext4fs_indir2_size = blksz;
1771 }
1772 if ((__le32_to_cpu(ext4fs_indir1_block[rblock /
1773 perblock_parent]) <<
1774 log2_blksz)
1775 != ext4fs_indir2_blkno) {
1776 status = ext4fs_devread(__le32_to_cpu
1777 (ext4fs_indir1_block
1778 [rblock /
1779 perblock_parent]) <<
1780 log2_blksz, 0, blksz,
1781 (char *)ext4fs_indir2_block);
1782 if (status == 0) {
1783 printf("** TI ext2fs read block (indir 2 2)"
1784 "failed. **\n");
1785 return -1;
1786 }
1787 ext4fs_indir2_blkno =
1788 __le32_to_cpu(ext4fs_indir1_block[rblock /
1789 perblock_parent])
1790 << log2_blksz;
1791 }
1792
1793 if (ext4fs_indir3_block == NULL) {
1794 ext4fs_indir3_block = zalloc(blksz);
1795 if (ext4fs_indir3_block == NULL) {
1796 printf("** TI ext2fs read block (indir 2 2)"
1797 "malloc failed. **\n");
1798 return -1;
1799 }
1800 ext4fs_indir3_size = blksz;
1801 ext4fs_indir3_blkno = -1;
1802 }
1803 if (blksz != ext4fs_indir3_size) {
1804 free(ext4fs_indir3_block);
1805 ext4fs_indir3_block = NULL;
1806 ext4fs_indir3_size = 0;
1807 ext4fs_indir3_blkno = -1;
1808 ext4fs_indir3_block = zalloc(blksz);
1809 if (ext4fs_indir3_block == NULL) {
1810 printf("** TI ext2fs read block (indir 2 2)"
1811 "malloc failed. **\n");
1812 return -1;
1813 }
1814 ext4fs_indir3_size = blksz;
1815 }
1816 if ((__le32_to_cpu(ext4fs_indir2_block[rblock
1817 /
1818 perblock_child]) <<
1819 log2_blksz) != ext4fs_indir3_blkno) {
1820 status =
1821 ext4fs_devread(__le32_to_cpu
1822 (ext4fs_indir2_block
1823 [(rblock / perblock_child)
1824 % (blksz / 4)]) << log2_blksz, 0,
1825 blksz, (char *)ext4fs_indir3_block);
1826 if (status == 0) {
1827 printf("** TI ext2fs read block (indir 2 2)"
1828 "failed. **\n");
1829 return -1;
1830 }
1831 ext4fs_indir3_blkno =
1832 __le32_to_cpu(ext4fs_indir2_block[(rblock /
1833 perblock_child) %
1834 (blksz /
1835 4)]) <<
1836 log2_blksz;
1837 }
1838
1839 blknr = __le32_to_cpu(ext4fs_indir3_block
1840 [rblock % perblock_child]);
1841 }
1842 debug("ext4fs_read_block %ld\n", blknr);
1843
1844 return blknr;
1845}
1846
1847void ext4fs_close(void)
1848{
1849 if ((ext4fs_file != NULL) && (ext4fs_root != NULL)) {
1850 ext4fs_free_node(ext4fs_file, &ext4fs_root->diropen);
1851 ext4fs_file = NULL;
1852 }
1853 if (ext4fs_root != NULL) {
1854 free(ext4fs_root);
1855 ext4fs_root = NULL;
1856 }
1857 if (ext4fs_indir1_block != NULL) {
1858 free(ext4fs_indir1_block);
1859 ext4fs_indir1_block = NULL;
1860 ext4fs_indir1_size = 0;
1861 ext4fs_indir1_blkno = -1;
1862 }
1863 if (ext4fs_indir2_block != NULL) {
1864 free(ext4fs_indir2_block);
1865 ext4fs_indir2_block = NULL;
1866 ext4fs_indir2_size = 0;
1867 ext4fs_indir2_blkno = -1;
1868 }
1869 if (ext4fs_indir3_block != NULL) {
1870 free(ext4fs_indir3_block);
1871 ext4fs_indir3_block = NULL;
1872 ext4fs_indir3_size = 0;
1873 ext4fs_indir3_blkno = -1;
1874 }
1875}
1876
1877int ext4fs_iterate_dir(struct ext2fs_node *dir, char *name,
1878 struct ext2fs_node **fnode, int *ftype)
1879{
1880 unsigned int fpos = 0;
1881 int status;
1882 struct ext2fs_node *diro = (struct ext2fs_node *) dir;
1883
1884#ifdef DEBUG
1885 if (name != NULL)
1886 printf("Iterate dir %s\n", name);
1887#endif /* of DEBUG */
1888 if (!diro->inode_read) {
1889 status = ext4fs_read_inode(diro->data, diro->ino, &diro->inode);
1890 if (status == 0)
1891 return 0;
1892 }
1893 /* Search the file. */
1894 while (fpos < __le32_to_cpu(diro->inode.size)) {
1895 struct ext2_dirent dirent;
1896
1897 status = ext4fs_read_file(diro, fpos,
1898 sizeof(struct ext2_dirent),
1899 (char *) &dirent);
1900 if (status < 1)
1901 return 0;
1902
1903 if (dirent.namelen != 0) {
1904 char filename[dirent.namelen + 1];
1905 struct ext2fs_node *fdiro;
1906 int type = FILETYPE_UNKNOWN;
1907
1908 status = ext4fs_read_file(diro,
1909 fpos +
1910 sizeof(struct ext2_dirent),
1911 dirent.namelen, filename);
1912 if (status < 1)
1913 return 0;
1914
1915 fdiro = zalloc(sizeof(struct ext2fs_node));
1916 if (!fdiro)
1917 return 0;
1918
1919 fdiro->data = diro->data;
1920 fdiro->ino = __le32_to_cpu(dirent.inode);
1921
1922 filename[dirent.namelen] = '\0';
1923
1924 if (dirent.filetype != FILETYPE_UNKNOWN) {
1925 fdiro->inode_read = 0;
1926
1927 if (dirent.filetype == FILETYPE_DIRECTORY)
1928 type = FILETYPE_DIRECTORY;
1929 else if (dirent.filetype == FILETYPE_SYMLINK)
1930 type = FILETYPE_SYMLINK;
1931 else if (dirent.filetype == FILETYPE_REG)
1932 type = FILETYPE_REG;
1933 } else {
1934 status = ext4fs_read_inode(diro->data,
1935 __le32_to_cpu
1936 (dirent.inode),
1937 &fdiro->inode);
1938 if (status == 0) {
1939 free(fdiro);
1940 return 0;
1941 }
1942 fdiro->inode_read = 1;
1943
1944 if ((__le16_to_cpu(fdiro->inode.mode) &
1945 FILETYPE_INO_MASK) ==
1946 FILETYPE_INO_DIRECTORY) {
1947 type = FILETYPE_DIRECTORY;
1948 } else if ((__le16_to_cpu(fdiro->inode.mode)
1949 & FILETYPE_INO_MASK) ==
1950 FILETYPE_INO_SYMLINK) {
1951 type = FILETYPE_SYMLINK;
1952 } else if ((__le16_to_cpu(fdiro->inode.mode)
1953 & FILETYPE_INO_MASK) ==
1954 FILETYPE_INO_REG) {
1955 type = FILETYPE_REG;
1956 }
1957 }
1958#ifdef DEBUG
1959 printf("iterate >%s<\n", filename);
1960#endif /* of DEBUG */
1961 if ((name != NULL) && (fnode != NULL)
1962 && (ftype != NULL)) {
1963 if (strcmp(filename, name) == 0) {
1964 *ftype = type;
1965 *fnode = fdiro;
1966 return 1;
1967 }
1968 } else {
1969 if (fdiro->inode_read == 0) {
1970 status = ext4fs_read_inode(diro->data,
1971 __le32_to_cpu(
1972 dirent.inode),
1973 &fdiro->inode);
1974 if (status == 0) {
1975 free(fdiro);
1976 return 0;
1977 }
1978 fdiro->inode_read = 1;
1979 }
1980 switch (type) {
1981 case FILETYPE_DIRECTORY:
1982 printf("<DIR> ");
1983 break;
1984 case FILETYPE_SYMLINK:
1985 printf("<SYM> ");
1986 break;
1987 case FILETYPE_REG:
1988 printf(" ");
1989 break;
1990 default:
1991 printf("< ? > ");
1992 break;
1993 }
1994 printf("%10d %s\n",
1995 __le32_to_cpu(fdiro->inode.size),
1996 filename);
1997 }
1998 free(fdiro);
1999 }
2000 fpos += __le16_to_cpu(dirent.direntlen);
2001 }
2002 return 0;
2003}
2004
2005static char *ext4fs_read_symlink(struct ext2fs_node *node)
2006{
2007 char *symlink;
2008 struct ext2fs_node *diro = node;
2009 int status;
2010
2011 if (!diro->inode_read) {
2012 status = ext4fs_read_inode(diro->data, diro->ino, &diro->inode);
2013 if (status == 0)
2014 return 0;
2015 }
2016 symlink = zalloc(__le32_to_cpu(diro->inode.size) + 1);
2017 if (!symlink)
2018 return 0;
2019
2020 if (__le32_to_cpu(diro->inode.size) <= 60) {
2021 strncpy(symlink, diro->inode.b.symlink,
2022 __le32_to_cpu(diro->inode.size));
2023 } else {
2024 status = ext4fs_read_file(diro, 0,
2025 __le32_to_cpu(diro->inode.size),
2026 symlink);
2027 if (status == 0) {
2028 free(symlink);
2029 return 0;
2030 }
2031 }
2032 symlink[__le32_to_cpu(diro->inode.size)] = '\0';
2033 return symlink;
2034}
2035
2036static int ext4fs_find_file1(const char *currpath,
2037 struct ext2fs_node *currroot,
2038 struct ext2fs_node **currfound, int *foundtype)
2039{
2040 char fpath[strlen(currpath) + 1];
2041 char *name = fpath;
2042 char *next;
2043 int status;
2044 int type = FILETYPE_DIRECTORY;
2045 struct ext2fs_node *currnode = currroot;
2046 struct ext2fs_node *oldnode = currroot;
2047
2048 strncpy(fpath, currpath, strlen(currpath) + 1);
2049
2050 /* Remove all leading slashes. */
2051 while (*name == '/')
2052 name++;
2053
2054 if (!*name) {
2055 *currfound = currnode;
2056 return 1;
2057 }
2058
2059 for (;;) {
2060 int found;
2061
2062 /* Extract the actual part from the pathname. */
2063 next = strchr(name, '/');
2064 if (next) {
2065 /* Remove all leading slashes. */
2066 while (*next == '/')
2067 *(next++) = '\0';
2068 }
2069
2070 if (type != FILETYPE_DIRECTORY) {
2071 ext4fs_free_node(currnode, currroot);
2072 return 0;
2073 }
2074
2075 oldnode = currnode;
2076
2077 /* Iterate over the directory. */
2078 found = ext4fs_iterate_dir(currnode, name, &currnode, &type);
2079 if (found == 0)
2080 return 0;
2081
2082 if (found == -1)
2083 break;
2084
2085 /* Read in the symlink and follow it. */
2086 if (type == FILETYPE_SYMLINK) {
2087 char *symlink;
2088
2089 /* Test if the symlink does not loop. */
2090 if (++symlinknest == 8) {
2091 ext4fs_free_node(currnode, currroot);
2092 ext4fs_free_node(oldnode, currroot);
2093 return 0;
2094 }
2095
2096 symlink = ext4fs_read_symlink(currnode);
2097 ext4fs_free_node(currnode, currroot);
2098
2099 if (!symlink) {
2100 ext4fs_free_node(oldnode, currroot);
2101 return 0;
2102 }
2103
2104 debug("Got symlink >%s<\n", symlink);
2105
2106 if (symlink[0] == '/') {
2107 ext4fs_free_node(oldnode, currroot);
2108 oldnode = &ext4fs_root->diropen;
2109 }
2110
2111 /* Lookup the node the symlink points to. */
2112 status = ext4fs_find_file1(symlink, oldnode,
2113 &currnode, &type);
2114
2115 free(symlink);
2116
2117 if (status == 0) {
2118 ext4fs_free_node(oldnode, currroot);
2119 return 0;
2120 }
2121 }
2122
2123 ext4fs_free_node(oldnode, currroot);
2124
2125 /* Found the node! */
2126 if (!next || *next == '\0') {
2127 *currfound = currnode;
2128 *foundtype = type;
2129 return 1;
2130 }
2131 name = next;
2132 }
2133 return -1;
2134}
2135
2136int ext4fs_find_file(const char *path, struct ext2fs_node *rootnode,
2137 struct ext2fs_node **foundnode, int expecttype)
2138{
2139 int status;
2140 int foundtype = FILETYPE_DIRECTORY;
2141
2142 symlinknest = 0;
2143 if (!path)
2144 return 0;
2145
2146 status = ext4fs_find_file1(path, rootnode, foundnode, &foundtype);
2147 if (status == 0)
2148 return 0;
2149
2150 /* Check if the node that was found was of the expected type. */
2151 if ((expecttype == FILETYPE_REG) && (foundtype != expecttype))
2152 return 0;
2153 else if ((expecttype == FILETYPE_DIRECTORY)
2154 && (foundtype != expecttype))
2155 return 0;
2156
2157 return 1;
2158}
2159
2160int ext4fs_open(const char *filename)
2161{
2162 struct ext2fs_node *fdiro = NULL;
2163 int status;
2164 int len;
2165
2166 if (ext4fs_root == NULL)
2167 return -1;
2168
2169 ext4fs_file = NULL;
2170 status = ext4fs_find_file(filename, &ext4fs_root->diropen, &fdiro,
2171 FILETYPE_REG);
2172 if (status == 0)
2173 goto fail;
2174
2175 if (!fdiro->inode_read) {
2176 status = ext4fs_read_inode(fdiro->data, fdiro->ino,
2177 &fdiro->inode);
2178 if (status == 0)
2179 goto fail;
2180 }
2181 len = __le32_to_cpu(fdiro->inode.size);
2182 ext4fs_file = fdiro;
2183
2184 return len;
2185fail:
2186 ext4fs_free_node(fdiro, &ext4fs_root->diropen);
2187
2188 return -1;
2189}
2190
2191int ext4fs_mount(unsigned part_length)
2192{
2193 struct ext2_data *data;
2194 int status;
2195 struct ext_filesystem *fs = get_fs();
2196 data = zalloc(sizeof(struct ext2_data));
2197 if (!data)
2198 return 0;
2199
2200 /* Read the superblock. */
2201 status = ext4fs_devread(1 * 2, 0, sizeof(struct ext2_sblock),
2202 (char *)&data->sblock);
2203
2204 if (status == 0)
2205 goto fail;
2206
2207 /* Make sure this is an ext2 filesystem. */
2208 if (__le16_to_cpu(data->sblock.magic) != EXT2_MAGIC)
2209 goto fail;
2210
2211 if (__le32_to_cpu(data->sblock.revision_level == 0))
2212 fs->inodesz = 128;
2213 else
2214 fs->inodesz = __le16_to_cpu(data->sblock.inode_size);
2215
2216 debug("EXT2 rev %d, inode_size %d\n",
2217 __le32_to_cpu(data->sblock.revision_level), fs->inodesz);
2218
2219 data->diropen.data = data;
2220 data->diropen.ino = 2;
2221 data->diropen.inode_read = 1;
2222 data->inode = &data->diropen.inode;
2223
2224 status = ext4fs_read_inode(data, 2, data->inode);
2225 if (status == 0)
2226 goto fail;
2227
2228 ext4fs_root = data;
2229
2230 return 1;
2231fail:
2232 printf("Failed to mount ext2 filesystem...\n");
2233 free(data);
2234 ext4fs_root = NULL;
2235
2236 return 0;
2237}