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      1 /**
      2  * fsck.c
      3  *
      4  * Copyright (c) 2013 Samsung Electronics Co., Ltd.
      5  *             http://www.samsung.com/
      6  *
      7  * This program is free software; you can redistribute it and/or modify
      8  * it under the terms of the GNU General Public License version 2 as
      9  * published by the Free Software Foundation.
     10  */
     11 #include "fsck.h"
     12 
     13 char *tree_mark;
     14 uint32_t tree_mark_size = 256;
     15 
     16 static inline int f2fs_set_main_bitmap(struct f2fs_sb_info *sbi, u32 blk)
     17 {
     18 	struct f2fs_fsck *fsck = F2FS_FSCK(sbi);
     19 
     20 	return f2fs_set_bit(BLKOFF_FROM_MAIN(sbi, blk), fsck->main_area_bitmap);
     21 }
     22 
     23 static inline int f2fs_test_main_bitmap(struct f2fs_sb_info *sbi, u32 blk)
     24 {
     25 	struct f2fs_fsck *fsck = F2FS_FSCK(sbi);
     26 
     27 	return f2fs_test_bit(BLKOFF_FROM_MAIN(sbi, blk),
     28 						fsck->main_area_bitmap);
     29 }
     30 
     31 static inline int f2fs_test_sit_bitmap(struct f2fs_sb_info *sbi, u32 blk)
     32 {
     33 	struct f2fs_fsck *fsck = F2FS_FSCK(sbi);
     34 
     35 	return f2fs_test_bit(BLKOFF_FROM_MAIN(sbi, blk), fsck->sit_area_bitmap);
     36 }
     37 
     38 static int add_into_hard_link_list(struct f2fs_sb_info *sbi,
     39 						u32 nid, u32 link_cnt)
     40 {
     41 	struct f2fs_fsck *fsck = F2FS_FSCK(sbi);
     42 	struct hard_link_node *node = NULL, *tmp = NULL, *prev = NULL;
     43 
     44 	node = calloc(sizeof(struct hard_link_node), 1);
     45 	ASSERT(node != NULL);
     46 
     47 	node->nid = nid;
     48 	node->links = link_cnt;
     49 	node->next = NULL;
     50 
     51 	if (fsck->hard_link_list_head == NULL) {
     52 		fsck->hard_link_list_head = node;
     53 		goto out;
     54 	}
     55 
     56 	tmp = fsck->hard_link_list_head;
     57 
     58 	/* Find insertion position */
     59 	while (tmp && (nid < tmp->nid)) {
     60 		ASSERT(tmp->nid != nid);
     61 		prev = tmp;
     62 		tmp = tmp->next;
     63 	}
     64 
     65 	if (tmp == fsck->hard_link_list_head) {
     66 		node->next = tmp;
     67 		fsck->hard_link_list_head = node;
     68 	} else {
     69 		prev->next = node;
     70 		node->next = tmp;
     71 	}
     72 
     73 out:
     74 	DBG(2, "ino[0x%x] has hard links [0x%x]\n", nid, link_cnt);
     75 	return 0;
     76 }
     77 
     78 static int find_and_dec_hard_link_list(struct f2fs_sb_info *sbi, u32 nid)
     79 {
     80 	struct f2fs_fsck *fsck = F2FS_FSCK(sbi);
     81 	struct hard_link_node *node = NULL, *prev = NULL;
     82 
     83 	if (fsck->hard_link_list_head == NULL)
     84 		return -EINVAL;
     85 
     86 	node = fsck->hard_link_list_head;
     87 
     88 	while (node && (nid < node->nid)) {
     89 		prev = node;
     90 		node = node->next;
     91 	}
     92 
     93 	if (node == NULL || (nid != node->nid))
     94 		return -EINVAL;
     95 
     96 	/* Decrease link count */
     97 	node->links = node->links - 1;
     98 
     99 	/* if link count becomes one, remove the node */
    100 	if (node->links == 1) {
    101 		if (fsck->hard_link_list_head == node)
    102 			fsck->hard_link_list_head = node->next;
    103 		else
    104 			prev->next = node->next;
    105 		free(node);
    106 	}
    107 	return 0;
    108 }
    109 
    110 static int is_valid_ssa_node_blk(struct f2fs_sb_info *sbi, u32 nid,
    111 							u32 blk_addr)
    112 {
    113 	int ret = 0;
    114 	struct f2fs_summary sum_entry;
    115 
    116 	ret = get_sum_entry(sbi, blk_addr, &sum_entry);
    117 
    118 	if (ret != SEG_TYPE_NODE && ret != SEG_TYPE_CUR_NODE) {
    119 		ASSERT_MSG("Summary footer is not for node segment");
    120 		return -EINVAL;
    121 	}
    122 
    123 	if (le32_to_cpu(sum_entry.nid) != nid) {
    124 		DBG(0, "nid                       [0x%x]\n", nid);
    125 		DBG(0, "target blk_addr           [0x%x]\n", blk_addr);
    126 		DBG(0, "summary blk_addr          [0x%x]\n",
    127 					GET_SUM_BLKADDR(sbi,
    128 					GET_SEGNO(sbi, blk_addr)));
    129 		DBG(0, "seg no / offset           [0x%x / 0x%x]\n",
    130 					GET_SEGNO(sbi, blk_addr),
    131 					OFFSET_IN_SEG(sbi, blk_addr));
    132 		DBG(0, "summary_entry.nid         [0x%x]\n",
    133 					le32_to_cpu(sum_entry.nid));
    134 		DBG(0, "--> node block's nid      [0x%x]\n", nid);
    135 		ASSERT_MSG("Invalid node seg summary\n");
    136 		return -EINVAL;
    137 	}
    138 	return 0;
    139 }
    140 
    141 static int is_valid_ssa_data_blk(struct f2fs_sb_info *sbi, u32 blk_addr,
    142 		u32 parent_nid, u16 idx_in_node, u8 version)
    143 {
    144 	int ret = 0;
    145 	struct f2fs_summary sum_entry;
    146 
    147 	ret = get_sum_entry(sbi, blk_addr, &sum_entry);
    148 
    149 	if (ret != SEG_TYPE_DATA && ret != SEG_TYPE_CUR_DATA) {
    150 		ASSERT_MSG("Summary footer is not for data segment");
    151 		return -EINVAL;
    152 	}
    153 
    154 	if (le32_to_cpu(sum_entry.nid) != parent_nid ||
    155 			sum_entry.version != version ||
    156 			le16_to_cpu(sum_entry.ofs_in_node) != idx_in_node) {
    157 
    158 		DBG(0, "summary_entry.nid         [0x%x]\n",
    159 					le32_to_cpu(sum_entry.nid));
    160 		DBG(0, "summary_entry.version     [0x%x]\n",
    161 					sum_entry.version);
    162 		DBG(0, "summary_entry.ofs_in_node [0x%x]\n",
    163 					le16_to_cpu(sum_entry.ofs_in_node));
    164 		DBG(0, "parent nid                [0x%x]\n", parent_nid);
    165 		DBG(0, "version from nat          [0x%x]\n", version);
    166 		DBG(0, "idx in parent node        [0x%x]\n", idx_in_node);
    167 
    168 		DBG(0, "Target data block addr    [0x%x]\n", blk_addr);
    169 		ASSERT_MSG("Invalid data seg summary\n");
    170 		return -EINVAL;
    171 	}
    172 	return 0;
    173 }
    174 
    175 static int sanity_check_nid(struct f2fs_sb_info *sbi, u32 nid,
    176 			struct f2fs_node *node_blk,
    177 			enum FILE_TYPE ftype, enum NODE_TYPE ntype,
    178 			struct node_info *ni)
    179 {
    180 	struct f2fs_fsck *fsck = F2FS_FSCK(sbi);
    181 	int ret;
    182 
    183 	if (!IS_VALID_NID(sbi, nid)) {
    184 		ASSERT_MSG("nid is not valid. [0x%x]", nid);
    185 		return -EINVAL;
    186 	}
    187 
    188 	get_node_info(sbi, nid, ni);
    189 	if (ni->blk_addr == NEW_ADDR) {
    190 		ASSERT_MSG("nid is NEW_ADDR. [0x%x]", nid);
    191 		return -EINVAL;
    192 	}
    193 
    194 	if (!IS_VALID_BLK_ADDR(sbi, ni->blk_addr)) {
    195 		ASSERT_MSG("blkaddres is not valid. [0x%x]", ni->blk_addr);
    196 		return -EINVAL;
    197 	}
    198 
    199 	if (is_valid_ssa_node_blk(sbi, nid, ni->blk_addr)) {
    200 		ASSERT_MSG("summary node block is not valid. [0x%x]", nid);
    201 		return -EINVAL;
    202 	}
    203 
    204 	ret = dev_read_block(node_blk, ni->blk_addr);
    205 	ASSERT(ret >= 0);
    206 
    207 	if (ntype == TYPE_INODE &&
    208 			node_blk->footer.nid != node_blk->footer.ino) {
    209 		ASSERT_MSG("nid[0x%x] footer.nid[0x%x] footer.ino[0x%x]",
    210 				nid, le32_to_cpu(node_blk->footer.nid),
    211 				le32_to_cpu(node_blk->footer.ino));
    212 		return -EINVAL;
    213 	}
    214 	if (ntype != TYPE_INODE &&
    215 			node_blk->footer.nid == node_blk->footer.ino) {
    216 		ASSERT_MSG("nid[0x%x] footer.nid[0x%x] footer.ino[0x%x]",
    217 				nid, le32_to_cpu(node_blk->footer.nid),
    218 				le32_to_cpu(node_blk->footer.ino));
    219 		return -EINVAL;
    220 	}
    221 
    222 	if (le32_to_cpu(node_blk->footer.nid) != nid) {
    223 		ASSERT_MSG("nid[0x%x] blk_addr[0x%x] footer.nid[0x%x]",
    224 				nid, ni->blk_addr,
    225 				le32_to_cpu(node_blk->footer.nid));
    226 		return -EINVAL;
    227 	}
    228 
    229 	if (ntype == TYPE_XATTR) {
    230 		u32 flag = le32_to_cpu(node_blk->footer.flag);
    231 
    232 		if ((flag >> OFFSET_BIT_SHIFT) != XATTR_NODE_OFFSET) {
    233 			ASSERT_MSG("xnid[0x%x] has wrong ofs:[0x%x]",
    234 					nid, flag);
    235 			return -EINVAL;
    236 		}
    237 	}
    238 
    239 	if ((ntype == TYPE_INODE && ftype == F2FS_FT_DIR) ||
    240 			(ntype == TYPE_XATTR && ftype == F2FS_FT_XATTR)) {
    241 		/* not included '.' & '..' */
    242 		if (f2fs_test_main_bitmap(sbi, ni->blk_addr) != 0) {
    243 			ASSERT_MSG("Duplicated node blk. nid[0x%x][0x%x]\n",
    244 					nid, ni->blk_addr);
    245 			return -EINVAL;
    246 		}
    247 	}
    248 
    249 	/* workaround to fix later */
    250 	if (ftype != F2FS_FT_ORPHAN ||
    251 			f2fs_test_bit(nid, fsck->nat_area_bitmap) != 0)
    252 		f2fs_clear_bit(nid, fsck->nat_area_bitmap);
    253 	else
    254 		ASSERT_MSG("orphan or xattr nid is duplicated [0x%x]\n",
    255 				nid);
    256 
    257 	if (f2fs_test_sit_bitmap(sbi, ni->blk_addr) == 0)
    258 		ASSERT_MSG("SIT bitmap is 0x0. blk_addr[0x%x]",
    259 				ni->blk_addr);
    260 
    261 	if (f2fs_test_main_bitmap(sbi, ni->blk_addr) == 0) {
    262 		fsck->chk.valid_blk_cnt++;
    263 		fsck->chk.valid_node_cnt++;
    264 	}
    265 	return 0;
    266 }
    267 
    268 static int fsck_chk_xattr_blk(struct f2fs_sb_info *sbi, u32 ino,
    269 					u32 x_nid, u32 *blk_cnt)
    270 {
    271 	struct f2fs_node *node_blk = NULL;
    272 	struct node_info ni;
    273 	int ret = 0;
    274 
    275 	if (x_nid == 0x0)
    276 		return 0;
    277 
    278 	node_blk = (struct f2fs_node *)calloc(BLOCK_SZ, 1);
    279 	ASSERT(node_blk != NULL);
    280 
    281 	/* Sanity check */
    282 	if (sanity_check_nid(sbi, x_nid, node_blk,
    283 				F2FS_FT_XATTR, TYPE_XATTR, &ni)) {
    284 		ret = -EINVAL;
    285 		goto out;
    286 	}
    287 
    288 	*blk_cnt = *blk_cnt + 1;
    289 	f2fs_set_main_bitmap(sbi, ni.blk_addr);
    290 	DBG(2, "ino[0x%x] x_nid[0x%x]\n", ino, x_nid);
    291 out:
    292 	free(node_blk);
    293 	return ret;
    294 }
    295 
    296 int fsck_chk_node_blk(struct f2fs_sb_info *sbi, struct f2fs_inode *inode,
    297 		u32 nid, enum FILE_TYPE ftype, enum NODE_TYPE ntype,
    298 		u32 *blk_cnt)
    299 {
    300 	struct node_info ni;
    301 	struct f2fs_node *node_blk = NULL;
    302 
    303 	node_blk = (struct f2fs_node *)calloc(BLOCK_SZ, 1);
    304 	ASSERT(node_blk != NULL);
    305 
    306 	if (sanity_check_nid(sbi, nid, node_blk, ftype, ntype, &ni))
    307 		goto err;
    308 
    309 	if (ntype == TYPE_INODE) {
    310 		fsck_chk_inode_blk(sbi, nid, ftype, node_blk, blk_cnt, &ni);
    311 	} else {
    312 		f2fs_set_main_bitmap(sbi, ni.blk_addr);
    313 
    314 		switch (ntype) {
    315 		case TYPE_DIRECT_NODE:
    316 			fsck_chk_dnode_blk(sbi, inode, nid, ftype, node_blk,
    317 					blk_cnt, &ni);
    318 			break;
    319 		case TYPE_INDIRECT_NODE:
    320 			fsck_chk_idnode_blk(sbi, inode, ftype, node_blk,
    321 					blk_cnt);
    322 			break;
    323 		case TYPE_DOUBLE_INDIRECT_NODE:
    324 			fsck_chk_didnode_blk(sbi, inode, ftype, node_blk,
    325 					blk_cnt);
    326 			break;
    327 		default:
    328 			ASSERT(0);
    329 		}
    330 	}
    331 	free(node_blk);
    332 	return 0;
    333 err:
    334 	free(node_blk);
    335 	return -EINVAL;
    336 }
    337 
    338 /* start with valid nid and blkaddr */
    339 void fsck_chk_inode_blk(struct f2fs_sb_info *sbi, u32 nid,
    340 		enum FILE_TYPE ftype, struct f2fs_node *node_blk,
    341 		u32 *blk_cnt, struct node_info *ni)
    342 {
    343 	struct f2fs_fsck *fsck = F2FS_FSCK(sbi);
    344 	u32 child_cnt = 0, child_files = 0;
    345 	enum NODE_TYPE ntype;
    346 	u32 i_links = le32_to_cpu(node_blk->i.i_links);
    347 	u64 i_blocks = le64_to_cpu(node_blk->i.i_blocks);
    348 	unsigned int idx = 0;
    349 	int need_fix = 0;
    350 	int ret;
    351 
    352 	if (f2fs_test_main_bitmap(sbi, ni->blk_addr) == 0)
    353 		fsck->chk.valid_inode_cnt++;
    354 
    355 	if (ftype == F2FS_FT_DIR) {
    356 		f2fs_set_main_bitmap(sbi, ni->blk_addr);
    357 	} else {
    358 		if (f2fs_test_main_bitmap(sbi, ni->blk_addr) == 0) {
    359 			f2fs_set_main_bitmap(sbi, ni->blk_addr);
    360 			if (i_links > 1) {
    361 				/* First time. Create new hard link node */
    362 				add_into_hard_link_list(sbi, nid, i_links);
    363 				fsck->chk.multi_hard_link_files++;
    364 			}
    365 		} else {
    366 			DBG(3, "[0x%x] has hard links [0x%x]\n", nid, i_links);
    367 			if (find_and_dec_hard_link_list(sbi, nid)) {
    368 				ASSERT_MSG("[0x%x] needs more i_links=0x%x",
    369 						nid, i_links);
    370 				if (config.fix_on) {
    371 					node_blk->i.i_links =
    372 						cpu_to_le32(i_links + 1);
    373 					need_fix = 1;
    374 					FIX_MSG("File: 0x%x "
    375 						"i_links= 0x%x -> 0x%x",
    376 						nid, i_links, i_links + 1);
    377 				}
    378 				goto check;
    379 			}
    380 			/* No need to go deep into the node */
    381 			return;
    382 		}
    383 	}
    384 
    385 	if (fsck_chk_xattr_blk(sbi, nid,
    386 			le32_to_cpu(node_blk->i.i_xattr_nid), blk_cnt) &&
    387 			config.fix_on) {
    388 		node_blk->i.i_xattr_nid = 0;
    389 		need_fix = 1;
    390 		FIX_MSG("Remove xattr block: 0x%x, x_nid = 0x%x",
    391 				nid, le32_to_cpu(node_blk->i.i_xattr_nid));
    392 	}
    393 
    394 	if (ftype == F2FS_FT_CHRDEV || ftype == F2FS_FT_BLKDEV ||
    395 			ftype == F2FS_FT_FIFO || ftype == F2FS_FT_SOCK)
    396 		goto check;
    397 
    398 	if((node_blk->i.i_inline & F2FS_INLINE_DATA)) {
    399 		if (le32_to_cpu(node_blk->i.i_addr[0]) != 0) {
    400 			/* should fix this bug all the time */
    401 			FIX_MSG("inline_data has wrong 0'th block = %x",
    402 					le32_to_cpu(node_blk->i.i_addr[0]));
    403 			node_blk->i.i_addr[0] = 0;
    404 			node_blk->i.i_blocks = cpu_to_le64(*blk_cnt);
    405 			need_fix = 1;
    406 		}
    407 		if (!(node_blk->i.i_inline & F2FS_DATA_EXIST)) {
    408 			char buf[MAX_INLINE_DATA];
    409 			memset(buf, 0, MAX_INLINE_DATA);
    410 
    411 			if (memcmp(buf, &node_blk->i.i_addr[1],
    412 							MAX_INLINE_DATA)) {
    413 				FIX_MSG("inline_data has DATA_EXIST");
    414 				node_blk->i.i_inline |= F2FS_DATA_EXIST;
    415 				need_fix = 1;
    416 			}
    417 		}
    418 		DBG(3, "ino[0x%x] has inline data!\n", nid);
    419 		goto check;
    420 	}
    421 	if((node_blk->i.i_inline & F2FS_INLINE_DENTRY)) {
    422 		DBG(3, "ino[0x%x] has inline dentry!\n", nid);
    423 		ret = fsck_chk_inline_dentries(sbi, node_blk,
    424 					&child_cnt, &child_files);
    425 		if (ret < 0) {
    426 			/* should fix this bug all the time */
    427 			need_fix = 1;
    428 		}
    429 		goto check;
    430 	}
    431 
    432 	/* check data blocks in inode */
    433 	for (idx = 0; idx < ADDRS_PER_INODE(&node_blk->i); idx++) {
    434 		if (le32_to_cpu(node_blk->i.i_addr[idx]) != 0) {
    435 			ret = fsck_chk_data_blk(sbi,
    436 					le32_to_cpu(node_blk->i.i_addr[idx]),
    437 					&child_cnt, &child_files,
    438 					(i_blocks == *blk_cnt),
    439 					ftype, nid, idx, ni->version);
    440 			if (!ret) {
    441 				*blk_cnt = *blk_cnt + 1;
    442 			} else if (config.fix_on) {
    443 				node_blk->i.i_addr[idx] = 0;
    444 				need_fix = 1;
    445 				FIX_MSG("[0x%x] i_addr[%d] = 0", nid, idx);
    446 			}
    447 		}
    448 	}
    449 
    450 	/* check node blocks in inode */
    451 	for (idx = 0; idx < 5; idx++) {
    452 		if (idx == 0 || idx == 1)
    453 			ntype = TYPE_DIRECT_NODE;
    454 		else if (idx == 2 || idx == 3)
    455 			ntype = TYPE_INDIRECT_NODE;
    456 		else if (idx == 4)
    457 			ntype = TYPE_DOUBLE_INDIRECT_NODE;
    458 		else
    459 			ASSERT(0);
    460 
    461 		if (le32_to_cpu(node_blk->i.i_nid[idx]) != 0) {
    462 			ret = fsck_chk_node_blk(sbi, &node_blk->i,
    463 					le32_to_cpu(node_blk->i.i_nid[idx]),
    464 					ftype, ntype, blk_cnt);
    465 			if (!ret) {
    466 				*blk_cnt = *blk_cnt + 1;
    467 			} else if (config.fix_on) {
    468 				node_blk->i.i_nid[idx] = 0;
    469 				need_fix = 1;
    470 				FIX_MSG("[0x%x] i_nid[%d] = 0", nid, idx);
    471 			}
    472 		}
    473 	}
    474 check:
    475 	if (ftype == F2FS_FT_DIR)
    476 		DBG(1, "Directory Inode: 0x%x [%s] depth: %d has %d files\n\n",
    477 				le32_to_cpu(node_blk->footer.ino),
    478 				node_blk->i.i_name,
    479 				le32_to_cpu(node_blk->i.i_current_depth),
    480 				child_files);
    481 	if (ftype == F2FS_FT_ORPHAN)
    482 		DBG(1, "Orphan Inode: 0x%x [%s] i_blocks: %u\n\n",
    483 				le32_to_cpu(node_blk->footer.ino),
    484 				node_blk->i.i_name,
    485 				(u32)i_blocks);
    486 
    487 	if (i_blocks != *blk_cnt) {
    488 		ASSERT_MSG("ino: 0x%x has i_blocks: %08"PRIx64", "
    489 				"but has %u blocks",
    490 				nid, i_blocks, *blk_cnt);
    491 		if (config.fix_on) {
    492 			node_blk->i.i_blocks = cpu_to_le64(*blk_cnt);
    493 			need_fix = 1;
    494 			FIX_MSG("[0x%x] i_blocks=0x%08"PRIx64" -> 0x%x",
    495 					nid, i_blocks, *blk_cnt);
    496 		}
    497 	}
    498 	if (ftype == F2FS_FT_DIR && i_links != child_cnt) {
    499 		ASSERT_MSG("ino: 0x%x has i_links: %u but real links: %u",
    500 				nid, i_links, child_cnt);
    501 		if (config.fix_on) {
    502 			node_blk->i.i_links = cpu_to_le32(child_cnt);
    503 			need_fix = 1;
    504 			FIX_MSG("Dir: 0x%x i_links= 0x%x -> 0x%x",
    505 						nid, i_links, child_cnt);
    506 		}
    507 	}
    508 
    509 	if (ftype == F2FS_FT_ORPHAN && i_links)
    510 		ASSERT_MSG("ino: 0x%x is orphan inode, but has i_links: %u",
    511 				nid, i_links);
    512 	if (need_fix) {
    513 		ret = dev_write_block(node_blk, ni->blk_addr);
    514 		ASSERT(ret >= 0);
    515 	}
    516 }
    517 
    518 int fsck_chk_dnode_blk(struct f2fs_sb_info *sbi, struct f2fs_inode *inode,
    519 		u32 nid, enum FILE_TYPE ftype, struct f2fs_node *node_blk,
    520 		u32 *blk_cnt, struct node_info *ni)
    521 {
    522 	int idx, ret;
    523 	u32 child_cnt = 0, child_files = 0;
    524 
    525 	for (idx = 0; idx < ADDRS_PER_BLOCK; idx++) {
    526 		if (le32_to_cpu(node_blk->dn.addr[idx]) == 0x0)
    527 			continue;
    528 		ret = fsck_chk_data_blk(sbi,
    529 			le32_to_cpu(node_blk->dn.addr[idx]),
    530 			&child_cnt, &child_files,
    531 			le64_to_cpu(inode->i_blocks) == *blk_cnt, ftype,
    532 			nid, idx, ni->version);
    533 		if (!ret)
    534 			*blk_cnt = *blk_cnt + 1;
    535 	}
    536 	return 0;
    537 }
    538 
    539 int fsck_chk_idnode_blk(struct f2fs_sb_info *sbi, struct f2fs_inode *inode,
    540 		enum FILE_TYPE ftype, struct f2fs_node *node_blk, u32 *blk_cnt)
    541 {
    542 	int ret;
    543 	int i = 0;
    544 
    545 	for (i = 0 ; i < NIDS_PER_BLOCK; i++) {
    546 		if (le32_to_cpu(node_blk->in.nid[i]) == 0x0)
    547 			continue;
    548 		ret = fsck_chk_node_blk(sbi, inode,
    549 				le32_to_cpu(node_blk->in.nid[i]),
    550 				ftype, TYPE_DIRECT_NODE, blk_cnt);
    551 		if (!ret)
    552 			*blk_cnt = *blk_cnt + 1;
    553 		else if (ret == -EINVAL)
    554 			printf("delete in.nid[i] = 0;\n");
    555 	}
    556 	return 0;
    557 }
    558 
    559 int fsck_chk_didnode_blk(struct f2fs_sb_info *sbi, struct f2fs_inode *inode,
    560 		enum FILE_TYPE ftype, struct f2fs_node *node_blk, u32 *blk_cnt)
    561 {
    562 	int i = 0;
    563 	int ret = 0;
    564 
    565 	for (i = 0; i < NIDS_PER_BLOCK; i++) {
    566 		if (le32_to_cpu(node_blk->in.nid[i]) == 0x0)
    567 			continue;
    568 		ret = fsck_chk_node_blk(sbi, inode,
    569 				le32_to_cpu(node_blk->in.nid[i]),
    570 				ftype, TYPE_INDIRECT_NODE, blk_cnt);
    571 		if (!ret)
    572 			*blk_cnt = *blk_cnt + 1;
    573 		else if (ret == -EINVAL)
    574 			printf("delete in.nid[i] = 0;\n");
    575 	}
    576 	return 0;
    577 }
    578 
    579 static void print_dentry(__u32 depth, __u8 *name,
    580 		unsigned long *bitmap,
    581 		struct f2fs_dir_entry *dentry,
    582 		int max, int idx, int last_blk)
    583 {
    584 	int last_de = 0;
    585 	int next_idx = 0;
    586 	int name_len;
    587 	unsigned int i;
    588 	int bit_offset;
    589 
    590 	if (config.dbg_lv != -1)
    591 		return;
    592 
    593 	name_len = le16_to_cpu(dentry[idx].name_len);
    594 	next_idx = idx + (name_len + F2FS_SLOT_LEN - 1) / F2FS_SLOT_LEN;
    595 
    596 	bit_offset = find_next_bit(bitmap, max, next_idx);
    597 	if (bit_offset >= max && last_blk)
    598 		last_de = 1;
    599 
    600 	if (tree_mark_size <= depth) {
    601 		tree_mark_size *= 2;
    602 		tree_mark = realloc(tree_mark, tree_mark_size);
    603 	}
    604 
    605 	if (last_de)
    606 		tree_mark[depth] = '`';
    607 	else
    608 		tree_mark[depth] = '|';
    609 
    610 	if (tree_mark[depth - 1] == '`')
    611 		tree_mark[depth - 1] = ' ';
    612 
    613 
    614 	for (i = 1; i < depth; i++)
    615 		printf("%c   ", tree_mark[i]);
    616 	printf("%c-- %s 0x%x\n", last_de ? '`' : '|',
    617 				name, le32_to_cpu(dentry[idx].ino));
    618 }
    619 
    620 static int __chk_dentries(struct f2fs_sb_info *sbi, u32 *child_cnt,
    621 			u32* child_files,
    622 			unsigned long *bitmap,
    623 			struct f2fs_dir_entry *dentry,
    624 			__u8 (*filenames)[F2FS_SLOT_LEN],
    625 			int max, int last_blk)
    626 {
    627 	struct f2fs_fsck *fsck = F2FS_FSCK(sbi);
    628 	enum FILE_TYPE ftype;
    629 	int dentries = 0;
    630 	u32 blk_cnt;
    631 	u8 *name;
    632 	u32 hash_code;
    633 	u16 name_len;;
    634 	int ret = 0;
    635 	int fixed = 0;
    636 	int i;
    637 
    638 	for (i = 0; i < max;) {
    639 		if (test_bit(i, bitmap) == 0) {
    640 			i++;
    641 			continue;
    642 		}
    643 		if (!IS_VALID_NID(sbi, le32_to_cpu(dentry[i].ino))) {
    644 			DBG(1, "Bad dentry 0x%x with invalid NID/ino 0x%x",
    645 			    i, le32_to_cpu(dentry[i].ino));
    646 			if (config.fix_on) {
    647 				FIX_MSG("Clear bad dentry 0x%x with bad ino 0x%x",
    648 					i, le32_to_cpu(dentry[i].ino));
    649 				clear_bit(i, bitmap);
    650 				i++;
    651 				fixed = 1;
    652 				continue;
    653 			}
    654 		}
    655 		ftype = dentry[i].file_type;
    656 		if ((ftype <= F2FS_FT_UNKNOWN || ftype > F2FS_FT_LAST_FILE_TYPE) && config.fix_on) {
    657 			DBG(1, "Bad dentry 0x%x with unexpected ftype 0x%x",
    658 			    i, ftype);
    659 			if (config.fix_on) {
    660 				FIX_MSG("Clear bad dentry 0x%x with bad ftype 0x%x",
    661 					i, ftype);
    662 				clear_bit(i, bitmap);
    663 				i++;
    664 				fixed = 1;
    665 				continue;
    666 			}
    667 		}
    668 		name_len = le16_to_cpu(dentry[i].name_len);
    669 		name = calloc(name_len + 1, 1);
    670 		memcpy(name, filenames[i], name_len);
    671 		hash_code = f2fs_dentry_hash((const unsigned char *)name,
    672 								name_len);
    673 
    674 		/* fix hash_code made by old buggy code */
    675 		if (le32_to_cpu(dentry[i].hash_code) != hash_code) {
    676 			dentry[i].hash_code = hash_code;
    677 			fixed = 1;
    678 			FIX_MSG("hash_code[%d] of %s", i, name);
    679 		}
    680 
    681 		/* Becareful. 'dentry.file_type' is not imode. */
    682 		if (ftype == F2FS_FT_DIR) {
    683 			*child_cnt = *child_cnt + 1;
    684 			if ((name[0] == '.' && name_len == 1) ||
    685 				(name[0] == '.' && name[1] == '.' &&
    686 							name_len == 2)) {
    687 				i++;
    688 				free(name);
    689 				continue;
    690 			}
    691 		}
    692 
    693 		DBG(1, "[%3u]-[0x%x] name[%s] len[0x%x] ino[0x%x] type[0x%x]\n",
    694 				fsck->dentry_depth, i, name, name_len,
    695 				le32_to_cpu(dentry[i].ino),
    696 				dentry[i].file_type);
    697 
    698 		print_dentry(fsck->dentry_depth, name, bitmap,
    699 						dentry, max, i, last_blk);
    700 
    701 		blk_cnt = 1;
    702 		ret = fsck_chk_node_blk(sbi,
    703 				NULL, le32_to_cpu(dentry[i].ino),
    704 				ftype, TYPE_INODE, &blk_cnt);
    705 
    706 		if (ret && config.fix_on) {
    707 			int j;
    708 			int slots = (name_len + F2FS_SLOT_LEN - 1) /
    709 				F2FS_SLOT_LEN;
    710 			for (j = 0; j < slots; j++)
    711 				clear_bit(i + j, bitmap);
    712 			FIX_MSG("Unlink [0x%x] - %s len[0x%x], type[0x%x]",
    713 					le32_to_cpu(dentry[i].ino),
    714 					name, name_len,
    715 					dentry[i].file_type);
    716 			i += slots;
    717 			free(name);
    718 			continue;
    719 		}
    720 
    721 		i += (name_len + F2FS_SLOT_LEN - 1) / F2FS_SLOT_LEN;
    722 		dentries++;
    723 		*child_files = *child_files + 1;
    724 		free(name);
    725 	}
    726 	return fixed ? -1 : dentries;
    727 }
    728 
    729 int fsck_chk_inline_dentries(struct f2fs_sb_info *sbi,
    730 		struct f2fs_node *node_blk, u32 *child_cnt, u32 *child_files)
    731 {
    732 	struct f2fs_fsck *fsck = F2FS_FSCK(sbi);
    733 	struct f2fs_inline_dentry *de_blk;
    734 	int dentries;
    735 
    736 	de_blk = inline_data_addr(node_blk);
    737 	ASSERT(de_blk != NULL);
    738 
    739 	fsck->dentry_depth++;
    740 	dentries = __chk_dentries(sbi, child_cnt, child_files,
    741 			(unsigned long *)de_blk->dentry_bitmap,
    742 			de_blk->dentry, de_blk->filename,
    743 			NR_INLINE_DENTRY, 1);
    744 	if (dentries < 0) {
    745 		DBG(1, "[%3d] Inline Dentry Block Fixed hash_codes\n\n",
    746 			fsck->dentry_depth);
    747 	} else {
    748 		DBG(1, "[%3d] Inline Dentry Block Done : "
    749 				"dentries:%d in %d slots (len:%d)\n\n",
    750 			fsck->dentry_depth, dentries,
    751 			(int)NR_INLINE_DENTRY, F2FS_NAME_LEN);
    752 	}
    753 	fsck->dentry_depth--;
    754 	return dentries;
    755 }
    756 
    757 int fsck_chk_dentry_blk(struct f2fs_sb_info *sbi, u32 blk_addr,
    758 		u32 *child_cnt, u32 *child_files, int last_blk)
    759 {
    760 	struct f2fs_fsck *fsck = F2FS_FSCK(sbi);
    761 	struct f2fs_dentry_block *de_blk;
    762 	int dentries, ret;
    763 
    764 	de_blk = (struct f2fs_dentry_block *)calloc(BLOCK_SZ, 1);
    765 	ASSERT(de_blk != NULL);
    766 
    767 	ret = dev_read_block(de_blk, blk_addr);
    768 	ASSERT(ret >= 0);
    769 
    770 	fsck->dentry_depth++;
    771 	dentries = __chk_dentries(sbi, child_cnt, child_files,
    772 			(unsigned long *)de_blk->dentry_bitmap,
    773 			de_blk->dentry, de_blk->filename,
    774 			NR_DENTRY_IN_BLOCK, last_blk);
    775 
    776 	if (dentries < 0) {
    777 		ret = dev_write_block(de_blk, blk_addr);
    778 		ASSERT(ret >= 0);
    779 		DBG(1, "[%3d] Dentry Block [0x%x] Fixed hash_codes\n\n",
    780 			fsck->dentry_depth, blk_addr);
    781 	} else {
    782 		DBG(1, "[%3d] Dentry Block [0x%x] Done : "
    783 				"dentries:%d in %d slots (len:%d)\n\n",
    784 			fsck->dentry_depth, blk_addr, dentries,
    785 			NR_DENTRY_IN_BLOCK, F2FS_NAME_LEN);
    786 	}
    787 	fsck->dentry_depth--;
    788 	free(de_blk);
    789 	return 0;
    790 }
    791 
    792 int fsck_chk_data_blk(struct f2fs_sb_info *sbi, u32 blk_addr,
    793 		u32 *child_cnt, u32 *child_files, int last_blk,
    794 		enum FILE_TYPE ftype, u32 parent_nid, u16 idx_in_node, u8 ver)
    795 {
    796 	struct f2fs_fsck *fsck = F2FS_FSCK(sbi);
    797 
    798 	/* Is it reserved block? */
    799 	if (blk_addr == NEW_ADDR) {
    800 		fsck->chk.valid_blk_cnt++;
    801 		return 0;
    802 	}
    803 
    804 	if (!IS_VALID_BLK_ADDR(sbi, blk_addr)) {
    805 		ASSERT_MSG("blkaddres is not valid. [0x%x]", blk_addr);
    806 		return -EINVAL;
    807 	}
    808 
    809 	if (is_valid_ssa_data_blk(sbi, blk_addr, parent_nid,
    810 						idx_in_node, ver)) {
    811 		ASSERT_MSG("summary data block is not valid. [0x%x]",
    812 						parent_nid);
    813 		return -EINVAL;
    814 	}
    815 
    816 	if (f2fs_test_sit_bitmap(sbi, blk_addr) == 0)
    817 		ASSERT_MSG("SIT bitmap is 0x0. blk_addr[0x%x]", blk_addr);
    818 
    819 	if (f2fs_test_main_bitmap(sbi, blk_addr) != 0)
    820 		ASSERT_MSG("Duplicated data [0x%x]. pnid[0x%x] idx[0x%x]",
    821 				blk_addr, parent_nid, idx_in_node);
    822 
    823 	f2fs_set_main_bitmap(sbi, blk_addr);
    824 
    825 	fsck->chk.valid_blk_cnt++;
    826 
    827 	if (ftype == F2FS_FT_DIR)
    828 		return fsck_chk_dentry_blk(sbi, blk_addr, child_cnt,
    829 				child_files, last_blk);
    830 	return 0;
    831 }
    832 
    833 void fsck_chk_orphan_node(struct f2fs_sb_info *sbi)
    834 {
    835 	u32 blk_cnt = 0;
    836 	block_t start_blk, orphan_blkaddr, i, j;
    837 	struct f2fs_orphan_block *orphan_blk;
    838 	struct f2fs_checkpoint *ckpt = F2FS_CKPT(sbi);
    839 
    840 	if (!is_set_ckpt_flags(ckpt, CP_ORPHAN_PRESENT_FLAG))
    841 		return;
    842 
    843 	if (config.fix_on)
    844 		return;
    845 
    846 	start_blk = __start_cp_addr(sbi) + 1 +
    847 		le32_to_cpu(F2FS_RAW_SUPER(sbi)->cp_payload);
    848 	orphan_blkaddr = __start_sum_addr(sbi) - 1;
    849 	orphan_blk = calloc(BLOCK_SZ, 1);
    850 
    851 	for (i = 0; i < orphan_blkaddr; i++) {
    852 		int ret = dev_read_block(orphan_blk, start_blk + i);
    853 
    854 		ASSERT(ret >= 0);
    855 
    856 		for (j = 0; j < le32_to_cpu(orphan_blk->entry_count); j++) {
    857 			nid_t ino = le32_to_cpu(orphan_blk->ino[j]);
    858 			DBG(1, "[%3d] ino [0x%x]\n", i, ino);
    859 			blk_cnt = 1;
    860 			fsck_chk_node_blk(sbi, NULL, ino,
    861 					F2FS_FT_ORPHAN, TYPE_INODE, &blk_cnt);
    862 		}
    863 		memset(orphan_blk, 0, BLOCK_SZ);
    864 	}
    865 	free(orphan_blk);
    866 }
    867 
    868 void fsck_init(struct f2fs_sb_info *sbi)
    869 {
    870 	struct f2fs_fsck *fsck = F2FS_FSCK(sbi);
    871 	struct f2fs_sm_info *sm_i = SM_I(sbi);
    872 
    873 	/*
    874 	 * We build three bitmap for main/sit/nat so that may check consistency
    875 	 * of filesystem.
    876 	 * 1. main_area_bitmap will be used to check whether all blocks of main
    877 	 *    area is used or not.
    878 	 * 2. nat_area_bitmap has bitmap information of used nid in NAT.
    879 	 * 3. sit_area_bitmap has bitmap information of used main block.
    880 	 * At Last sequence, we compare main_area_bitmap with sit_area_bitmap.
    881 	 */
    882 	fsck->nr_main_blks = sm_i->main_segments << sbi->log_blocks_per_seg;
    883 	fsck->main_area_bitmap_sz = (fsck->nr_main_blks + 7) / 8;
    884 	fsck->main_area_bitmap = calloc(fsck->main_area_bitmap_sz, 1);
    885 	ASSERT(fsck->main_area_bitmap != NULL);
    886 
    887 	build_nat_area_bitmap(sbi);
    888 
    889 	build_sit_area_bitmap(sbi);
    890 
    891 	tree_mark = calloc(tree_mark_size, 1);
    892 	ASSERT(tree_mark != NULL);
    893 }
    894 
    895 static void fix_nat_entries(struct f2fs_sb_info *sbi)
    896 {
    897 	struct f2fs_fsck *fsck = F2FS_FSCK(sbi);
    898 	u32 i;
    899 
    900 	for (i = 0; i < fsck->nr_nat_entries; i++)
    901 		if (f2fs_test_bit(i, fsck->nat_area_bitmap) != 0)
    902 			nullify_nat_entry(sbi, i);
    903 }
    904 
    905 static void fix_checkpoint(struct f2fs_sb_info *sbi)
    906 {
    907 	struct f2fs_fsck *fsck = F2FS_FSCK(sbi);
    908 	struct f2fs_super_block *raw_sb = sbi->raw_super;
    909 	struct f2fs_checkpoint *ckp = F2FS_CKPT(sbi);
    910 	unsigned long long cp_blk_no;
    911 	u32 i;
    912 	int ret;
    913 	u_int32_t crc = 0;
    914 
    915 	ckp->ckpt_flags = cpu_to_le32(CP_UMOUNT_FLAG);
    916 	ckp->cp_pack_total_block_count =
    917 		cpu_to_le32(8 + le32_to_cpu(raw_sb->cp_payload));
    918 	ckp->cp_pack_start_sum = cpu_to_le32(1 +
    919 				le32_to_cpu(raw_sb->cp_payload));
    920 
    921 	ckp->free_segment_count = cpu_to_le32(fsck->chk.free_segs);
    922 	ckp->valid_block_count = cpu_to_le32(fsck->chk.valid_blk_cnt);
    923 	ckp->valid_node_count = cpu_to_le32(fsck->chk.valid_node_cnt);
    924 	ckp->valid_inode_count = cpu_to_le32(fsck->chk.valid_inode_cnt);
    925 
    926 	crc = f2fs_cal_crc32(F2FS_SUPER_MAGIC, ckp, CHECKSUM_OFFSET);
    927 	*((__le32 *)((unsigned char *)ckp + CHECKSUM_OFFSET)) =
    928 							cpu_to_le32(crc);
    929 
    930 	cp_blk_no = le32_to_cpu(raw_sb->cp_blkaddr);
    931 	if (sbi->cur_cp == 2)
    932 		cp_blk_no += 1 << le32_to_cpu(raw_sb->log_blocks_per_seg);
    933 
    934 	ret = dev_write_block(ckp, cp_blk_no++);
    935 	ASSERT(ret >= 0);
    936 
    937 	for (i = 0; i < le32_to_cpu(raw_sb->cp_payload); i++) {
    938 		ret = dev_write_block(((unsigned char *)ckp) + i * F2FS_BLKSIZE,
    939 								cp_blk_no++);
    940 		ASSERT(ret >= 0);
    941 	}
    942 
    943 	for (i = 0; i < NO_CHECK_TYPE; i++) {
    944 		struct curseg_info *curseg = CURSEG_I(sbi, i);
    945 
    946 		ret = dev_write_block(curseg->sum_blk, cp_blk_no++);
    947 		ASSERT(ret >= 0);
    948 	}
    949 
    950 	ret = dev_write_block(ckp, cp_blk_no++);
    951 	ASSERT(ret >= 0);
    952 }
    953 
    954 int check_curseg_offset(struct f2fs_sb_info *sbi)
    955 {
    956 	int i;
    957 
    958 	for (i = 0; i < NO_CHECK_TYPE; i++) {
    959 		struct curseg_info *curseg = CURSEG_I(sbi, i);
    960 		struct seg_entry *se;
    961 
    962 		se = get_seg_entry(sbi, curseg->segno);
    963 		if (f2fs_test_bit(curseg->next_blkoff,
    964 				(const char *)se->cur_valid_map) == 1) {
    965 			ASSERT_MSG("Next block offset is not free, type:%d", i);
    966 			return -EINVAL;
    967 		}
    968 	}
    969 	return 0;
    970 }
    971 
    972 int fsck_verify(struct f2fs_sb_info *sbi)
    973 {
    974 	unsigned int i = 0;
    975 	int ret = 0;
    976 	u32 nr_unref_nid = 0;
    977 	struct f2fs_fsck *fsck = F2FS_FSCK(sbi);
    978 	struct hard_link_node *node = NULL;
    979 
    980 	printf("\n");
    981 
    982 	for (i = 0; i < fsck->nr_nat_entries; i++) {
    983 		if (f2fs_test_bit(i, fsck->nat_area_bitmap) != 0) {
    984 			printf("NID[0x%x] is unreachable\n", i);
    985 			nr_unref_nid++;
    986 		}
    987 	}
    988 
    989 	if (fsck->hard_link_list_head != NULL) {
    990 		node = fsck->hard_link_list_head;
    991 		while (node) {
    992 			printf("NID[0x%x] has [0x%x] more unreachable links\n",
    993 					node->nid, node->links);
    994 			node = node->next;
    995 		}
    996 		config.bug_on = 1;
    997 	}
    998 
    999 	printf("[FSCK] Unreachable nat entries                       ");
   1000 	if (nr_unref_nid == 0x0) {
   1001 		printf(" [Ok..] [0x%x]\n", nr_unref_nid);
   1002 	} else {
   1003 		printf(" [Fail] [0x%x]\n", nr_unref_nid);
   1004 		ret = EXIT_ERR_CODE;
   1005 		config.bug_on = 1;
   1006 	}
   1007 
   1008 	printf("[FSCK] SIT valid block bitmap checking                ");
   1009 	if (memcmp(fsck->sit_area_bitmap, fsck->main_area_bitmap,
   1010 					fsck->sit_area_bitmap_sz) == 0x0) {
   1011 		printf("[Ok..]\n");
   1012 	} else {
   1013 		printf("[Fail]\n");
   1014 		ret = EXIT_ERR_CODE;
   1015 		config.bug_on = 1;
   1016 	}
   1017 
   1018 	printf("[FSCK] Hard link checking for regular file           ");
   1019 	if (fsck->hard_link_list_head == NULL) {
   1020 		printf(" [Ok..] [0x%x]\n", fsck->chk.multi_hard_link_files);
   1021 	} else {
   1022 		printf(" [Fail] [0x%x]\n", fsck->chk.multi_hard_link_files);
   1023 		ret = EXIT_ERR_CODE;
   1024 		config.bug_on = 1;
   1025 	}
   1026 
   1027 	printf("[FSCK] valid_block_count matching with CP            ");
   1028 	if (sbi->total_valid_block_count == fsck->chk.valid_blk_cnt) {
   1029 		printf(" [Ok..] [0x%x]\n", (u32)fsck->chk.valid_blk_cnt);
   1030 	} else {
   1031 		printf(" [Fail] [0x%x]\n", (u32)fsck->chk.valid_blk_cnt);
   1032 		ret = EXIT_ERR_CODE;
   1033 		config.bug_on = 1;
   1034 	}
   1035 
   1036 	printf("[FSCK] valid_node_count matcing with CP (de lookup)  ");
   1037 	if (sbi->total_valid_node_count == fsck->chk.valid_node_cnt) {
   1038 		printf(" [Ok..] [0x%x]\n", fsck->chk.valid_node_cnt);
   1039 	} else {
   1040 		printf(" [Fail] [0x%x]\n", fsck->chk.valid_node_cnt);
   1041 		ret = EXIT_ERR_CODE;
   1042 		config.bug_on = 1;
   1043 	}
   1044 
   1045 	printf("[FSCK] valid_node_count matcing with CP (nat lookup) ");
   1046 	if (sbi->total_valid_node_count == fsck->chk.valid_nat_entry_cnt) {
   1047 		printf(" [Ok..] [0x%x]\n", fsck->chk.valid_nat_entry_cnt);
   1048 	} else {
   1049 		printf(" [Fail] [0x%x]\n", fsck->chk.valid_nat_entry_cnt);
   1050 		ret = EXIT_ERR_CODE;
   1051 		config.bug_on = 1;
   1052 	}
   1053 
   1054 	printf("[FSCK] valid_inode_count matched with CP             ");
   1055 	if (sbi->total_valid_inode_count == fsck->chk.valid_inode_cnt) {
   1056 		printf(" [Ok..] [0x%x]\n", fsck->chk.valid_inode_cnt);
   1057 	} else {
   1058 		printf(" [Fail] [0x%x]\n", fsck->chk.valid_inode_cnt);
   1059 		ret = EXIT_ERR_CODE;
   1060 		config.bug_on = 1;
   1061 	}
   1062 
   1063 	printf("[FSCK] free segment_count matched with CP            ");
   1064 	if (le32_to_cpu(F2FS_CKPT(sbi)->free_segment_count) ==
   1065 						fsck->chk.sit_free_segs) {
   1066 		printf(" [Ok..] [0x%x]\n", fsck->chk.sit_free_segs);
   1067 	} else {
   1068 		printf(" [Fail] [0x%x]\n", fsck->chk.sit_free_segs);
   1069 		ret = EXIT_ERR_CODE;
   1070 		config.bug_on = 1;
   1071 	}
   1072 
   1073 	printf("[FSCK] next block offset is free                     ");
   1074 	if (check_curseg_offset(sbi) == 0) {
   1075 		printf(" [Ok..]\n");
   1076 	} else {
   1077 		printf(" [Fail]\n");
   1078 		ret = EXIT_ERR_CODE;
   1079 		config.bug_on = 1;
   1080 	}
   1081 
   1082 	printf("[FSCK] other corrupted bugs                          ");
   1083 	if (config.bug_on == 0) {
   1084 		printf(" [Ok..]\n");
   1085 	} else {
   1086 		printf(" [Fail]\n");
   1087 		ret = EXIT_ERR_CODE;
   1088 		config.bug_on = 1;
   1089 	}
   1090 
   1091 	/* fix global metadata */
   1092 	if (config.bug_on && config.fix_on) {
   1093 		fix_nat_entries(sbi);
   1094 		rewrite_sit_area_bitmap(sbi);
   1095 		fix_checkpoint(sbi);
   1096 	}
   1097 	return ret;
   1098 }
   1099 
   1100 void fsck_free(struct f2fs_sb_info *sbi)
   1101 {
   1102 	struct f2fs_fsck *fsck = F2FS_FSCK(sbi);
   1103 	if (fsck->main_area_bitmap)
   1104 		free(fsck->main_area_bitmap);
   1105 
   1106 	if (fsck->nat_area_bitmap)
   1107 		free(fsck->nat_area_bitmap);
   1108 
   1109 	if (fsck->sit_area_bitmap)
   1110 		free(fsck->sit_area_bitmap);
   1111 
   1112 	if (tree_mark)
   1113 		free(tree_mark);
   1114 }
   1115