third_party_f2fs-tools/fsck/mount.c

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f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
/**
* mount.c
*
* Copyright (c) 2013 Samsung Electronics Co., Ltd.
* http://www.samsung.com/
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License version 2 as
* published by the Free Software Foundation.
*/
#include "fsck.h"
#include "xattr.h"
#include <locale.h>
#ifdef HAVE_LINUX_POSIX_ACL_H
#include <linux/posix_acl.h>
#endif
#ifdef HAVE_SYS_ACL_H
#include <sys/acl.h>
#endif
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
#ifndef ACL_UNDEFINED_TAG
#define ACL_UNDEFINED_TAG (0x00)
#define ACL_USER_OBJ (0x01)
#define ACL_USER (0x02)
#define ACL_GROUP_OBJ (0x04)
#define ACL_GROUP (0x08)
#define ACL_MASK (0x10)
#define ACL_OTHER (0x20)
#endif
u32 get_free_segments(struct f2fs_sb_info *sbi)
{
u32 i, free_segs = 0;
for (i = 0; i < TOTAL_SEGS(sbi); i++) {
struct seg_entry *se = get_seg_entry(sbi, i);
if (se->valid_blocks == 0x0 && !IS_CUR_SEGNO(sbi, i))
free_segs++;
}
return free_segs;
}
void update_free_segments(struct f2fs_sb_info *sbi)
{
char *progress = "-*|*-";
static int i = 0;
if (c.dbg_lv)
return;
MSG(0, "\r [ %c ] Free segments: 0x%x", progress[i % 5], get_free_segments(sbi));
fflush(stdout);
i++;
}
#if defined(HAVE_LINUX_POSIX_ACL_H) || defined(HAVE_SYS_ACL_H)
void print_acl(char *value, int size)
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
{
struct f2fs_acl_header *hdr = (struct f2fs_acl_header *)value;
struct f2fs_acl_entry *entry = (struct f2fs_acl_entry *)(hdr + 1);
const char *end = value + size;
int i, count;
if (hdr->a_version != cpu_to_le32(F2FS_ACL_VERSION)) {
MSG(0, "Invalid ACL version [0x%x : 0x%x]\n",
le32_to_cpu(hdr->a_version), F2FS_ACL_VERSION);
return;
}
count = f2fs_acl_count(size);
if (count <= 0) {
MSG(0, "Invalid ACL value size %d\n", size);
return;
}
for (i = 0; i < count; i++) {
if ((char *)entry > end) {
MSG(0, "Invalid ACL entries count %d\n", count);
return;
}
switch (le16_to_cpu(entry->e_tag)) {
case ACL_USER_OBJ:
case ACL_GROUP_OBJ:
case ACL_MASK:
case ACL_OTHER:
MSG(0, "tag:0x%x perm:0x%x\n",
le16_to_cpu(entry->e_tag),
le16_to_cpu(entry->e_perm));
entry = (struct f2fs_acl_entry *)((char *)entry +
sizeof(struct f2fs_acl_entry_short));
break;
case ACL_USER:
MSG(0, "tag:0x%x perm:0x%x uid:%u\n",
le16_to_cpu(entry->e_tag),
le16_to_cpu(entry->e_perm),
le32_to_cpu(entry->e_id));
entry = (struct f2fs_acl_entry *)((char *)entry +
sizeof(struct f2fs_acl_entry));
break;
case ACL_GROUP:
MSG(0, "tag:0x%x perm:0x%x gid:%u\n",
le16_to_cpu(entry->e_tag),
le16_to_cpu(entry->e_perm),
le32_to_cpu(entry->e_id));
entry = (struct f2fs_acl_entry *)((char *)entry +
sizeof(struct f2fs_acl_entry));
break;
default:
MSG(0, "Unknown ACL tag 0x%x\n",
le16_to_cpu(entry->e_tag));
return;
}
}
}
#else
#define print_acl(value, size) do { \
int i; \
for (i = 0; i < size; i++) \
MSG(0, "%02X", value[i]); \
MSG(0, "\n"); \
} while (0)
#endif
void print_xattr_entry(struct f2fs_xattr_entry *ent)
{
char *value = (char *)(ent->e_name + le16_to_cpu(ent->e_name_len));
struct fscrypt_context *ctx;
int i;
MSG(0, "\nxattr: e_name_index:%d e_name:", ent->e_name_index);
for (i = 0; i < le16_to_cpu(ent->e_name_len); i++)
MSG(0, "%c", ent->e_name[i]);
MSG(0, " e_name_len:%d e_value_size:%d e_value:\n",
ent->e_name_len, le16_to_cpu(ent->e_value_size));
switch (ent->e_name_index) {
case F2FS_XATTR_INDEX_POSIX_ACL_ACCESS:
case F2FS_XATTR_INDEX_POSIX_ACL_DEFAULT:
print_acl(value, le16_to_cpu(ent->e_value_size));
break;
case F2FS_XATTR_INDEX_USER:
case F2FS_XATTR_INDEX_SECURITY:
case F2FS_XATTR_INDEX_TRUSTED:
case F2FS_XATTR_INDEX_LUSTRE:
for (i = 0; i < le16_to_cpu(ent->e_value_size); i++)
MSG(0, "%02X", value[i]);
MSG(0, "\n");
break;
case F2FS_XATTR_INDEX_ENCRYPTION:
ctx = (struct fscrypt_context *)value;
MSG(0, "format: %d\n", ctx->format);
MSG(0, "contents_encryption_mode: 0x%x\n", ctx->contents_encryption_mode);
MSG(0, "filenames_encryption_mode: 0x%x\n", ctx->filenames_encryption_mode);
MSG(0, "flags: 0x%x\n", ctx->flags);
MSG(0, "master_key_descriptor: ");
for (i = 0; i < FS_KEY_DESCRIPTOR_SIZE; i++)
MSG(0, "%02X", ctx->master_key_descriptor[i]);
MSG(0, "\nnonce: ");
for (i = 0; i < FS_KEY_DERIVATION_NONCE_SIZE; i++)
MSG(0, "%02X", ctx->nonce[i]);
MSG(0, "\n");
break;
default:
break;
}
}
void print_inode_info(struct f2fs_sb_info *sbi,
struct f2fs_node *node, int name)
{
struct f2fs_inode *inode = &node->i;
void *xattr_addr;
struct f2fs_xattr_entry *ent;
unsigned char en[F2FS_NAME_LEN + 1];
unsigned int i = 0;
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
int namelen = le32_to_cpu(inode->i_namelen);
int enc_name = file_enc_name(inode);
int ofs = __get_extra_isize(inode);
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
namelen = convert_encrypted_name(inode->i_name, namelen, en, enc_name);
en[namelen] = '\0';
if (name && namelen) {
inode->i_name[namelen] = '\0';
MSG(0, " - File name : %s%s\n", en,
enc_name ? " <encrypted>" : "");
setlocale(LC_ALL, "");
MSG(0, " - File size : %'llu (bytes)\n",
le64_to_cpu(inode->i_size));
return;
}
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
DISP_u32(inode, i_mode);
DISP_u32(inode, i_advise);
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
DISP_u32(inode, i_uid);
DISP_u32(inode, i_gid);
DISP_u32(inode, i_links);
DISP_u64(inode, i_size);
DISP_u64(inode, i_blocks);
DISP_u64(inode, i_atime);
DISP_u32(inode, i_atime_nsec);
DISP_u64(inode, i_ctime);
DISP_u32(inode, i_ctime_nsec);
DISP_u64(inode, i_mtime);
DISP_u32(inode, i_mtime_nsec);
DISP_u32(inode, i_generation);
DISP_u32(inode, i_current_depth);
DISP_u32(inode, i_xattr_nid);
DISP_u32(inode, i_flags);
DISP_u32(inode, i_inline);
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
DISP_u32(inode, i_pino);
DISP_u32(inode, i_dir_level);
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
if (namelen) {
DISP_u32(inode, i_namelen);
printf("%-30s\t\t[%s]\n", "i_name", en);
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
}
printf("i_ext: fofs:%x blkaddr:%x len:%x\n",
le32_to_cpu(inode->i_ext.fofs),
le32_to_cpu(inode->i_ext.blk_addr),
le32_to_cpu(inode->i_ext.len));
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
if (c.feature & cpu_to_le32(F2FS_FEATURE_EXTRA_ATTR)) {
DISP_u16(inode, i_extra_isize);
if (c.feature & cpu_to_le32(F2FS_FEATURE_FLEXIBLE_INLINE_XATTR))
DISP_u16(inode, i_inline_xattr_size);
if (c.feature & cpu_to_le32(F2FS_FEATURE_PRJQUOTA))
DISP_u32(inode, i_projid);
if (c.feature & cpu_to_le32(F2FS_FEATURE_INODE_CHKSUM))
DISP_u32(inode, i_inode_checksum);
if (c.feature & cpu_to_le32(F2FS_FEATURE_INODE_CRTIME)) {
DISP_u64(inode, i_crtime);
DISP_u32(inode, i_crtime_nsec);
}
}
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
DISP_u32(inode, i_addr[ofs]); /* Pointers to data blocks */
DISP_u32(inode, i_addr[ofs + 1]); /* Pointers to data blocks */
DISP_u32(inode, i_addr[ofs + 2]); /* Pointers to data blocks */
DISP_u32(inode, i_addr[ofs + 3]); /* Pointers to data blocks */
for (i = ofs + 3; i < ADDRS_PER_INODE(inode); i++) {
if (inode->i_addr[i] == 0x0)
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
break;
printf("i_addr[0x%x] points data block\t\t[0x%4x]\n",
i, le32_to_cpu(inode->i_addr[i]));
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
}
DISP_u32(inode, i_nid[0]); /* direct */
DISP_u32(inode, i_nid[1]); /* direct */
DISP_u32(inode, i_nid[2]); /* indirect */
DISP_u32(inode, i_nid[3]); /* indirect */
DISP_u32(inode, i_nid[4]); /* double indirect */
xattr_addr = read_all_xattrs(sbi, node);
list_for_each_xattr(ent, xattr_addr) {
print_xattr_entry(ent);
}
free(xattr_addr);
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
printf("\n");
}
void print_node_info(struct f2fs_sb_info *sbi,
struct f2fs_node *node_block, int verbose)
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
{
nid_t ino = le32_to_cpu(node_block->footer.ino);
nid_t nid = le32_to_cpu(node_block->footer.nid);
/* Is this inode? */
if (ino == nid) {
DBG(verbose, "Node ID [0x%x:%u] is inode\n", nid, nid);
print_inode_info(sbi, node_block, verbose);
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
} else {
int i;
u32 *dump_blk = (u32 *)node_block;
DBG(verbose,
"Node ID [0x%x:%u] is direct node or indirect node.\n",
nid, nid);
for (i = 0; i <= 10; i++)
MSG(verbose, "[%d]\t\t\t[0x%8x : %d]\n",
i, dump_blk[i], dump_blk[i]);
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
}
}
static void DISP_label(u_int16_t *name)
{
char buffer[MAX_VOLUME_NAME];
utf16_to_utf8(buffer, name, MAX_VOLUME_NAME, MAX_VOLUME_NAME);
printf("%-30s" "\t\t[%s]\n", "volum_name", buffer);
}
void print_raw_sb_info(struct f2fs_super_block *sb)
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
{
if (!c.dbg_lv)
return;
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
printf("\n");
printf("+--------------------------------------------------------+\n");
printf("| Super block |\n");
printf("+--------------------------------------------------------+\n");
DISP_u32(sb, magic);
DISP_u32(sb, major_ver);
DISP_label(sb->volume_name);
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
DISP_u32(sb, minor_ver);
DISP_u32(sb, log_sectorsize);
DISP_u32(sb, log_sectors_per_block);
DISP_u32(sb, log_blocksize);
DISP_u32(sb, log_blocks_per_seg);
DISP_u32(sb, segs_per_sec);
DISP_u32(sb, secs_per_zone);
DISP_u32(sb, checksum_offset);
DISP_u64(sb, block_count);
DISP_u32(sb, section_count);
DISP_u32(sb, segment_count);
DISP_u32(sb, segment_count_ckpt);
DISP_u32(sb, segment_count_sit);
DISP_u32(sb, segment_count_nat);
DISP_u32(sb, segment_count_ssa);
DISP_u32(sb, segment_count_main);
DISP_u32(sb, segment0_blkaddr);
DISP_u32(sb, cp_blkaddr);
DISP_u32(sb, sit_blkaddr);
DISP_u32(sb, nat_blkaddr);
DISP_u32(sb, ssa_blkaddr);
DISP_u32(sb, main_blkaddr);
DISP_u32(sb, root_ino);
DISP_u32(sb, node_ino);
DISP_u32(sb, meta_ino);
DISP_u32(sb, cp_payload);
DISP("%-.256s", sb, version);
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
printf("\n");
}
void print_ckpt_info(struct f2fs_sb_info *sbi)
{
struct f2fs_checkpoint *cp = F2FS_CKPT(sbi);
if (!c.dbg_lv)
return;
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
printf("\n");
printf("+--------------------------------------------------------+\n");
printf("| Checkpoint |\n");
printf("+--------------------------------------------------------+\n");
DISP_u64(cp, checkpoint_ver);
DISP_u64(cp, user_block_count);
DISP_u64(cp, valid_block_count);
DISP_u32(cp, rsvd_segment_count);
DISP_u32(cp, overprov_segment_count);
DISP_u32(cp, free_segment_count);
DISP_u32(cp, alloc_type[CURSEG_HOT_NODE]);
DISP_u32(cp, alloc_type[CURSEG_WARM_NODE]);
DISP_u32(cp, alloc_type[CURSEG_COLD_NODE]);
DISP_u32(cp, cur_node_segno[0]);
DISP_u32(cp, cur_node_segno[1]);
DISP_u32(cp, cur_node_segno[2]);
DISP_u32(cp, cur_node_blkoff[0]);
DISP_u32(cp, cur_node_blkoff[1]);
DISP_u32(cp, cur_node_blkoff[2]);
DISP_u32(cp, alloc_type[CURSEG_HOT_DATA]);
DISP_u32(cp, alloc_type[CURSEG_WARM_DATA]);
DISP_u32(cp, alloc_type[CURSEG_COLD_DATA]);
DISP_u32(cp, cur_data_segno[0]);
DISP_u32(cp, cur_data_segno[1]);
DISP_u32(cp, cur_data_segno[2]);
DISP_u32(cp, cur_data_blkoff[0]);
DISP_u32(cp, cur_data_blkoff[1]);
DISP_u32(cp, cur_data_blkoff[2]);
DISP_u32(cp, ckpt_flags);
DISP_u32(cp, cp_pack_total_block_count);
DISP_u32(cp, cp_pack_start_sum);
DISP_u32(cp, valid_node_count);
DISP_u32(cp, valid_inode_count);
DISP_u32(cp, next_free_nid);
DISP_u32(cp, sit_ver_bitmap_bytesize);
DISP_u32(cp, nat_ver_bitmap_bytesize);
DISP_u32(cp, checksum_offset);
DISP_u64(cp, elapsed_time);
DISP_u32(cp, sit_nat_version_bitmap[0]);
printf("\n\n");
}
void print_cp_state(u32 flag)
{
MSG(0, "Info: checkpoint state = %x : ", flag);
if (flag & CP_NOCRC_RECOVERY_FLAG)
MSG(0, "%s", " allow_nocrc");
if (flag & CP_TRIMMED_FLAG)
MSG(0, "%s", " trimmed");
if (flag & CP_NAT_BITS_FLAG)
MSG(0, "%s", " nat_bits");
if (flag & CP_CRC_RECOVERY_FLAG)
MSG(0, "%s", " crc");
if (flag & CP_FASTBOOT_FLAG)
MSG(0, "%s", " fastboot");
if (flag & CP_FSCK_FLAG)
MSG(0, "%s", " fsck");
if (flag & CP_ERROR_FLAG)
MSG(0, "%s", " error");
if (flag & CP_COMPACT_SUM_FLAG)
MSG(0, "%s", " compacted_summary");
if (flag & CP_ORPHAN_PRESENT_FLAG)
MSG(0, "%s", " orphan_inodes");
if (flag & CP_UMOUNT_FLAG)
MSG(0, "%s", " unmount");
else
MSG(0, "%s", " sudden-power-off");
MSG(0, "\n");
}
void print_sb_state(struct f2fs_super_block *sb)
{
__le32 f = sb->feature;
int i;
MSG(0, "Info: superblock features = %x : ", f);
if (f & cpu_to_le32(F2FS_FEATURE_ENCRYPT)) {
MSG(0, "%s", " encrypt");
}
if (f & cpu_to_le32(F2FS_FEATURE_VERITY)) {
MSG(0, "%s", " verity");
}
if (f & cpu_to_le32(F2FS_FEATURE_BLKZONED)) {
MSG(0, "%s", " blkzoned");
}
if (f & cpu_to_le32(F2FS_FEATURE_EXTRA_ATTR)) {
MSG(0, "%s", " extra_attr");
}
if (f & cpu_to_le32(F2FS_FEATURE_PRJQUOTA)) {
MSG(0, "%s", " project_quota");
}
if (f & cpu_to_le32(F2FS_FEATURE_INODE_CHKSUM)) {
MSG(0, "%s", " inode_checksum");
}
if (f & cpu_to_le32(F2FS_FEATURE_FLEXIBLE_INLINE_XATTR)) {
MSG(0, "%s", " flexible_inline_xattr");
}
if (f & cpu_to_le32(F2FS_FEATURE_QUOTA_INO)) {
MSG(0, "%s", " quota_ino");
}
if (f & cpu_to_le32(F2FS_FEATURE_INODE_CRTIME)) {
MSG(0, "%s", " inode_crtime");
}
if (f & cpu_to_le32(F2FS_FEATURE_LOST_FOUND)) {
MSG(0, "%s", " lost_found");
}
MSG(0, "\n");
MSG(0, "Info: superblock encrypt level = %d, salt = ",
sb->encryption_level);
for (i = 0; i < 16; i++)
MSG(0, "%02x", sb->encrypt_pw_salt[i]);
MSG(0, "\n");
}
static inline int sanity_check_area_boundary(struct f2fs_super_block *sb,
u64 offset)
{
u32 segment0_blkaddr = get_sb(segment0_blkaddr);
u32 cp_blkaddr = get_sb(cp_blkaddr);
u32 sit_blkaddr = get_sb(sit_blkaddr);
u32 nat_blkaddr = get_sb(nat_blkaddr);
u32 ssa_blkaddr = get_sb(ssa_blkaddr);
u32 main_blkaddr = get_sb(main_blkaddr);
u32 segment_count_ckpt = get_sb(segment_count_ckpt);
u32 segment_count_sit = get_sb(segment_count_sit);
u32 segment_count_nat = get_sb(segment_count_nat);
u32 segment_count_ssa = get_sb(segment_count_ssa);
u32 segment_count_main = get_sb(segment_count_main);
u32 segment_count = get_sb(segment_count);
u32 log_blocks_per_seg = get_sb(log_blocks_per_seg);
u64 main_end_blkaddr = main_blkaddr +
(segment_count_main << log_blocks_per_seg);
u64 seg_end_blkaddr = segment0_blkaddr +
(segment_count << log_blocks_per_seg);
if (segment0_blkaddr != cp_blkaddr) {
MSG(0, "\tMismatch segment0(%u) cp_blkaddr(%u)\n",
segment0_blkaddr, cp_blkaddr);
return -1;
}
if (cp_blkaddr + (segment_count_ckpt << log_blocks_per_seg) !=
sit_blkaddr) {
MSG(0, "\tWrong CP boundary, start(%u) end(%u) blocks(%u)\n",
cp_blkaddr, sit_blkaddr,
segment_count_ckpt << log_blocks_per_seg);
return -1;
}
if (sit_blkaddr + (segment_count_sit << log_blocks_per_seg) !=
nat_blkaddr) {
MSG(0, "\tWrong SIT boundary, start(%u) end(%u) blocks(%u)\n",
sit_blkaddr, nat_blkaddr,
segment_count_sit << log_blocks_per_seg);
return -1;
}
if (nat_blkaddr + (segment_count_nat << log_blocks_per_seg) !=
ssa_blkaddr) {
MSG(0, "\tWrong NAT boundary, start(%u) end(%u) blocks(%u)\n",
nat_blkaddr, ssa_blkaddr,
segment_count_nat << log_blocks_per_seg);
return -1;
}
if (ssa_blkaddr + (segment_count_ssa << log_blocks_per_seg) !=
main_blkaddr) {
MSG(0, "\tWrong SSA boundary, start(%u) end(%u) blocks(%u)\n",
ssa_blkaddr, main_blkaddr,
segment_count_ssa << log_blocks_per_seg);
return -1;
}
if (main_end_blkaddr > seg_end_blkaddr) {
MSG(0, "\tWrong MAIN_AREA, start(%u) end(%u) block(%u)\n",
main_blkaddr,
segment0_blkaddr +
(segment_count << log_blocks_per_seg),
segment_count_main << log_blocks_per_seg);
return -1;
} else if (main_end_blkaddr < seg_end_blkaddr) {
int err;
set_sb(segment_count, (main_end_blkaddr -
segment0_blkaddr) >> log_blocks_per_seg);
err = dev_write(sb, offset, sizeof(struct f2fs_super_block));
MSG(0, "Info: Fix alignment: %s, start(%u) end(%u) block(%u)\n",
err ? "failed": "done",
main_blkaddr,
segment0_blkaddr +
(segment_count << log_blocks_per_seg),
segment_count_main << log_blocks_per_seg);
}
return 0;
}
int sanity_check_raw_super(struct f2fs_super_block *sb, u64 offset)
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
{
unsigned int blocksize;
if (F2FS_SUPER_MAGIC != get_sb(magic))
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
return -1;
if (F2FS_BLKSIZE != PAGE_CACHE_SIZE)
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
return -1;
blocksize = 1 << get_sb(log_blocksize);
if (F2FS_BLKSIZE != blocksize)
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
return -1;
/* check log blocks per segment */
if (get_sb(log_blocks_per_seg) != 9)
return -1;
/* Currently, support 512/1024/2048/4096 bytes sector size */
if (get_sb(log_sectorsize) > F2FS_MAX_LOG_SECTOR_SIZE ||
get_sb(log_sectorsize) < F2FS_MIN_LOG_SECTOR_SIZE)
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
return -1;
if (get_sb(log_sectors_per_block) + get_sb(log_sectorsize) !=
F2FS_MAX_LOG_SECTOR_SIZE)
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
return -1;
/* check reserved ino info */
if (get_sb(node_ino) != 1 || get_sb(meta_ino) != 2 ||
get_sb(root_ino) != 3)
return -1;
/* Check zoned block device feature */
if (c.devices[0].zoned_model == F2FS_ZONED_HM &&
!(sb->feature & cpu_to_le32(F2FS_FEATURE_BLKZONED))) {
MSG(0, "\tMissing zoned block device feature\n");
return -1;
}
if (get_sb(segment_count) > F2FS_MAX_SEGMENT)
return -1;
if (sanity_check_area_boundary(sb, offset))
return -1;
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
return 0;
}
int validate_super_block(struct f2fs_sb_info *sbi, int block)
{
u64 offset;
char buf[F2FS_BLKSIZE];
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
sbi->raw_super = malloc(sizeof(struct f2fs_super_block));
if (block == 0)
offset = F2FS_SUPER_OFFSET;
else
offset = F2FS_BLKSIZE + F2FS_SUPER_OFFSET;
if (dev_read_block(buf, block))
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
return -1;
memcpy(sbi->raw_super, buf + F2FS_SUPER_OFFSET,
sizeof(struct f2fs_super_block));
if (!sanity_check_raw_super(sbi->raw_super, offset)) {
/* get kernel version */
if (c.kd >= 0) {
dev_read_version(c.version, 0, VERSION_LEN);
get_kernel_version(c.version);
} else {
get_kernel_uname_version(c.version);
}
/* build sb version */
memcpy(c.sb_version, sbi->raw_super->version, VERSION_LEN);
get_kernel_version(c.sb_version);
memcpy(c.init_version, sbi->raw_super->init_version, VERSION_LEN);
get_kernel_version(c.init_version);
MSG(0, "Info: MKFS version\n \"%s\"\n", c.init_version);
MSG(0, "Info: FSCK version\n from \"%s\"\n to \"%s\"\n",
c.sb_version, c.version);
if (memcmp(c.sb_version, c.version, VERSION_LEN)) {
int ret;
memcpy(sbi->raw_super->version,
c.version, VERSION_LEN);
ret = dev_write(sbi->raw_super, offset,
sizeof(struct f2fs_super_block));
ASSERT(ret >= 0);
c.auto_fix = 0;
c.fix_on = 1;
}
print_sb_state(sbi->raw_super);
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
return 0;
}
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
free(sbi->raw_super);
sbi->raw_super = NULL;
MSG(0, "\tCan't find a valid F2FS superblock at 0x%x\n", block);
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
return -EINVAL;
}
int init_sb_info(struct f2fs_sb_info *sbi)
{
struct f2fs_super_block *sb = F2FS_RAW_SUPER(sbi);
u64 total_sectors;
int i;
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
sbi->log_sectors_per_block = get_sb(log_sectors_per_block);
sbi->log_blocksize = get_sb(log_blocksize);
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
sbi->blocksize = 1 << sbi->log_blocksize;
sbi->log_blocks_per_seg = get_sb(log_blocks_per_seg);
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
sbi->blocks_per_seg = 1 << sbi->log_blocks_per_seg;
sbi->segs_per_sec = get_sb(segs_per_sec);
sbi->secs_per_zone = get_sb(secs_per_zone);
sbi->total_sections = get_sb(section_count);
sbi->total_node_count = (get_sb(segment_count_nat) / 2) *
sbi->blocks_per_seg * NAT_ENTRY_PER_BLOCK;
sbi->root_ino_num = get_sb(root_ino);
sbi->node_ino_num = get_sb(node_ino);
sbi->meta_ino_num = get_sb(meta_ino);
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
sbi->cur_victim_sec = NULL_SEGNO;
for (i = 0; i < MAX_DEVICES; i++) {
if (!sb->devs[i].path[0])
break;
if (i) {
c.devices[i].path = strdup((char *)sb->devs[i].path);
if (get_device_info(i))
ASSERT(0);
} else {
ASSERT(!strcmp((char *)sb->devs[i].path,
(char *)c.devices[i].path));
}
c.devices[i].total_segments =
le32_to_cpu(sb->devs[i].total_segments);
if (i)
c.devices[i].start_blkaddr =
c.devices[i - 1].end_blkaddr + 1;
c.devices[i].end_blkaddr = c.devices[i].start_blkaddr +
c.devices[i].total_segments *
c.blks_per_seg - 1;
if (i == 0)
c.devices[i].end_blkaddr += get_sb(segment0_blkaddr);
c.ndevs = i + 1;
MSG(0, "Info: Device[%d] : %s blkaddr = %"PRIx64"--%"PRIx64"\n",
i, c.devices[i].path,
c.devices[i].start_blkaddr,
c.devices[i].end_blkaddr);
}
total_sectors = get_sb(block_count) << sbi->log_sectors_per_block;
MSG(0, "Info: total FS sectors = %"PRIu64" (%"PRIu64" MB)\n",
total_sectors, total_sectors >>
(20 - get_sb(log_sectorsize)));
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
return 0;
}
void *validate_checkpoint(struct f2fs_sb_info *sbi, block_t cp_addr,
unsigned long long *version)
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
{
void *cp_page_1, *cp_page_2;
struct f2fs_checkpoint *cp;
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
unsigned long blk_size = sbi->blocksize;
unsigned long long cur_version = 0, pre_version = 0;
unsigned int crc = 0;
size_t crc_offset;
/* Read the 1st cp block in this CP pack */
cp_page_1 = malloc(PAGE_SIZE);
if (dev_read_block(cp_page_1, cp_addr) < 0)
goto invalid_cp1;
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
cp = (struct f2fs_checkpoint *)cp_page_1;
crc_offset = get_cp(checksum_offset);
if (crc_offset > (blk_size - sizeof(__le32)))
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
goto invalid_cp1;
crc = le32_to_cpu(*(__le32 *)((unsigned char *)cp + crc_offset));
if (f2fs_crc_valid(crc, cp, crc_offset))
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
goto invalid_cp1;
pre_version = get_cp(checkpoint_ver);
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
/* Read the 2nd cp block in this CP pack */
cp_page_2 = malloc(PAGE_SIZE);
cp_addr += get_cp(cp_pack_total_block_count) - 1;
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
if (dev_read_block(cp_page_2, cp_addr) < 0)
goto invalid_cp2;
cp = (struct f2fs_checkpoint *)cp_page_2;
crc_offset = get_cp(checksum_offset);
if (crc_offset > (blk_size - sizeof(__le32)))
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
goto invalid_cp2;
crc = le32_to_cpu(*(__le32 *)((unsigned char *)cp + crc_offset));
if (f2fs_crc_valid(crc, cp, crc_offset))
goto invalid_cp2;
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
cur_version = get_cp(checkpoint_ver);
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
if (cur_version == pre_version) {
*version = cur_version;
free(cp_page_2);
return cp_page_1;
}
invalid_cp2:
free(cp_page_2);
invalid_cp1:
free(cp_page_1);
return NULL;
}
int get_valid_checkpoint(struct f2fs_sb_info *sbi)
{
struct f2fs_super_block *sb = F2FS_RAW_SUPER(sbi);
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
void *cp1, *cp2, *cur_page;
unsigned long blk_size = sbi->blocksize;
unsigned long long cp1_version = 0, cp2_version = 0, version;
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
unsigned long long cp_start_blk_no;
unsigned int cp_payload, cp_blks;
int ret;
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
cp_payload = get_sb(cp_payload);
if (cp_payload > F2FS_BLK_ALIGN(MAX_SIT_BITMAP_SIZE))
return -EINVAL;
cp_blks = 1 + cp_payload;
sbi->ckpt = malloc(cp_blks * blk_size);
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
if (!sbi->ckpt)
return -ENOMEM;
/*
* Finding out valid cp block involves read both
* sets( cp pack1 and cp pack 2)
*/
cp_start_blk_no = get_sb(cp_blkaddr);
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
cp1 = validate_checkpoint(sbi, cp_start_blk_no, &cp1_version);
/* The second checkpoint pack should start at the next segment */
cp_start_blk_no += 1 << get_sb(log_blocks_per_seg);
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
cp2 = validate_checkpoint(sbi, cp_start_blk_no, &cp2_version);
if (cp1 && cp2) {
if (ver_after(cp2_version, cp1_version)) {
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
cur_page = cp2;
sbi->cur_cp = 2;
version = cp2_version;
} else {
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
cur_page = cp1;
sbi->cur_cp = 1;
version = cp1_version;
}
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
} else if (cp1) {
cur_page = cp1;
sbi->cur_cp = 1;
version = cp1_version;
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
} else if (cp2) {
cur_page = cp2;
sbi->cur_cp = 2;
version = cp2_version;
} else
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
goto fail_no_cp;
MSG(0, "Info: CKPT version = %llx\n", version);
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
memcpy(sbi->ckpt, cur_page, blk_size);
if (cp_blks > 1) {
unsigned int i;
unsigned long long cp_blk_no;
cp_blk_no = get_sb(cp_blkaddr);
if (cur_page == cp2)
cp_blk_no += 1 << get_sb(log_blocks_per_seg);
/* copy sit bitmap */
for (i = 1; i < cp_blks; i++) {
unsigned char *ckpt = (unsigned char *)sbi->ckpt;
ret = dev_read_block(cur_page, cp_blk_no + i);
ASSERT(ret >= 0);
memcpy(ckpt + i * blk_size, cur_page, blk_size);
}
}
if (cp1)
free(cp1);
if (cp2)
free(cp2);
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
return 0;
fail_no_cp:
free(sbi->ckpt);
sbi->ckpt = NULL;
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
return -EINVAL;
}
int sanity_check_ckpt(struct f2fs_sb_info *sbi)
{
unsigned int total, fsmeta;
struct f2fs_super_block *sb = F2FS_RAW_SUPER(sbi);
struct f2fs_checkpoint *cp = F2FS_CKPT(sbi);
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
total = get_sb(segment_count);
fsmeta = get_sb(segment_count_ckpt);
fsmeta += get_sb(segment_count_sit);
fsmeta += get_sb(segment_count_nat);
fsmeta += get_cp(rsvd_segment_count);
fsmeta += get_sb(segment_count_ssa);
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
if (fsmeta >= total)
return 1;
return 0;
}
static pgoff_t current_nat_addr(struct f2fs_sb_info *sbi, nid_t start)
{
struct f2fs_nm_info *nm_i = NM_I(sbi);
pgoff_t block_off;
pgoff_t block_addr;
int seg_off;
block_off = NAT_BLOCK_OFFSET(start);
seg_off = block_off >> sbi->log_blocks_per_seg;
block_addr = (pgoff_t)(nm_i->nat_blkaddr +
(seg_off << sbi->log_blocks_per_seg << 1) +
(block_off & ((1 << sbi->log_blocks_per_seg) -1)));
if (f2fs_test_bit(block_off, nm_i->nat_bitmap))
block_addr += sbi->blocks_per_seg;
return block_addr;
}
static int f2fs_init_nid_bitmap(struct f2fs_sb_info *sbi)
{
struct f2fs_nm_info *nm_i = NM_I(sbi);
int nid_bitmap_size = (nm_i->max_nid + BITS_PER_BYTE - 1) / BITS_PER_BYTE;
struct curseg_info *curseg = CURSEG_I(sbi, CURSEG_HOT_DATA);
struct f2fs_summary_block *sum = curseg->sum_blk;
struct f2fs_journal *journal = &sum->journal;
struct f2fs_nat_block *nat_block;
block_t start_blk;
nid_t nid;
int i;
if (!(c.func == SLOAD || c.func == FSCK))
return 0;
nm_i->nid_bitmap = (char *)calloc(nid_bitmap_size, 1);
if (!nm_i->nid_bitmap)
return -ENOMEM;
/* arbitrarily set 0 bit */
f2fs_set_bit(0, nm_i->nid_bitmap);
nat_block = malloc(F2FS_BLKSIZE);
if (!nat_block) {
free(nm_i->nid_bitmap);
return -ENOMEM;
}
for (nid = 0; nid < nm_i->max_nid; nid++) {
if (!(nid % NAT_ENTRY_PER_BLOCK)) {
int ret;
start_blk = current_nat_addr(sbi, nid);
ret = dev_read_block(nat_block, start_blk);
ASSERT(ret >= 0);
}
if (nat_block->entries[nid % NAT_ENTRY_PER_BLOCK].block_addr)
f2fs_set_bit(nid, nm_i->nid_bitmap);
}
for (i = 0; i < nats_in_cursum(journal); i++) {
block_t addr;
addr = le32_to_cpu(nat_in_journal(journal, i).block_addr);
nid = le32_to_cpu(nid_in_journal(journal, i));
if (addr != NULL_ADDR)
f2fs_set_bit(nid, nm_i->nid_bitmap);
}
free(nat_block);
return 0;
}
u32 update_nat_bits_flags(struct f2fs_super_block *sb,
struct f2fs_checkpoint *cp, u32 flags)
{
u_int32_t nat_bits_bytes, nat_bits_blocks;
nat_bits_bytes = get_sb(segment_count_nat) << 5;
nat_bits_blocks = F2FS_BYTES_TO_BLK((nat_bits_bytes << 1) + 8 +
F2FS_BLKSIZE - 1);
if (get_cp(cp_pack_total_block_count) <=
(1 << get_sb(log_blocks_per_seg)) - nat_bits_blocks)
flags |= CP_NAT_BITS_FLAG;
else
flags &= (~CP_NAT_BITS_FLAG);
return flags;
}
/* should call flush_journal_entries() bfore this */
void write_nat_bits(struct f2fs_sb_info *sbi,
struct f2fs_super_block *sb, struct f2fs_checkpoint *cp, int set)
{
struct f2fs_nm_info *nm_i = NM_I(sbi);
u_int32_t nat_blocks = get_sb(segment_count_nat) <<
(get_sb(log_blocks_per_seg) - 1);
u_int32_t nat_bits_bytes = nat_blocks >> 3;
u_int32_t nat_bits_blocks = F2FS_BYTES_TO_BLK((nat_bits_bytes << 1) +
8 + F2FS_BLKSIZE - 1);
unsigned char *nat_bits, *full_nat_bits, *empty_nat_bits;
struct f2fs_nat_block *nat_block;
u_int32_t i, j;
block_t blkaddr;
int ret;
nat_bits = calloc(F2FS_BLKSIZE, nat_bits_blocks);
ASSERT(nat_bits);
nat_block = malloc(F2FS_BLKSIZE);
ASSERT(nat_block);
full_nat_bits = nat_bits + 8;
empty_nat_bits = full_nat_bits + nat_bits_bytes;
memset(full_nat_bits, 0, nat_bits_bytes);
memset(empty_nat_bits, 0, nat_bits_bytes);
for (i = 0; i < nat_blocks; i++) {
int seg_off = i >> get_sb(log_blocks_per_seg);
int valid = 0;
blkaddr = (pgoff_t)(get_sb(nat_blkaddr) +
(seg_off << get_sb(log_blocks_per_seg) << 1) +
(i & ((1 << get_sb(log_blocks_per_seg)) - 1)));
/*
* Should consider new nat_blocks is larger than old
* nm_i->nat_blocks, since nm_i->nat_bitmap is based on
* old one.
*/
if (i < nm_i->nat_blocks && f2fs_test_bit(i, nm_i->nat_bitmap))
blkaddr += (1 << get_sb(log_blocks_per_seg));
ret = dev_read_block(nat_block, blkaddr);
ASSERT(ret >= 0);
for (j = 0; j < NAT_ENTRY_PER_BLOCK; j++) {
if ((i == 0 && j == 0) ||
nat_block->entries[j].block_addr != NULL_ADDR)
valid++;
}
if (valid == 0)
test_and_set_bit_le(i, empty_nat_bits);
else if (valid == NAT_ENTRY_PER_BLOCK)
test_and_set_bit_le(i, full_nat_bits);
}
*(__le64 *)nat_bits = get_cp_crc(cp);
free(nat_block);
blkaddr = get_sb(segment0_blkaddr) + (set <<
get_sb(log_blocks_per_seg)) - nat_bits_blocks;
DBG(1, "\tWriting NAT bits pages, at offset 0x%08x\n", blkaddr);
for (i = 0; i < nat_bits_blocks; i++) {
if (dev_write_block(nat_bits + i * F2FS_BLKSIZE, blkaddr + i))
ASSERT_MSG("\tError: write NAT bits to disk!!!\n");
}
MSG(0, "Info: Write valid nat_bits in checkpoint\n");
free(nat_bits);
}
static int check_nat_bits(struct f2fs_sb_info *sbi,
struct f2fs_super_block *sb, struct f2fs_checkpoint *cp)
{
struct f2fs_nm_info *nm_i = NM_I(sbi);
u_int32_t nat_blocks = get_sb(segment_count_nat) <<
(get_sb(log_blocks_per_seg) - 1);
u_int32_t nat_bits_bytes = nat_blocks >> 3;
u_int32_t nat_bits_blocks = F2FS_BYTES_TO_BLK((nat_bits_bytes << 1) +
8 + F2FS_BLKSIZE - 1);
unsigned char *nat_bits, *full_nat_bits, *empty_nat_bits;
struct curseg_info *curseg = CURSEG_I(sbi, CURSEG_HOT_DATA);
struct f2fs_journal *journal = &curseg->sum_blk->journal;
u_int32_t i, j;
block_t blkaddr;
int err = 0;
nat_bits = calloc(F2FS_BLKSIZE, nat_bits_blocks);
ASSERT(nat_bits);
full_nat_bits = nat_bits + 8;
empty_nat_bits = full_nat_bits + nat_bits_bytes;
blkaddr = get_sb(segment0_blkaddr) + (sbi->cur_cp <<
get_sb(log_blocks_per_seg)) - nat_bits_blocks;
for (i = 0; i < nat_bits_blocks; i++) {
if (dev_read_block(nat_bits + i * F2FS_BLKSIZE, blkaddr + i))
ASSERT_MSG("\tError: read NAT bits to disk!!!\n");
}
if (*(__le64 *)nat_bits != get_cp_crc(cp) || nats_in_cursum(journal)) {
/*
* if there is a journal, f2fs was not shutdown cleanly. Let's
* flush them with nat_bits.
*/
if (c.fix_on)
err = -1;
/* Otherwise, kernel will disable nat_bits */
goto out;
}
for (i = 0; i < nat_blocks; i++) {
u_int32_t start_nid = i * NAT_ENTRY_PER_BLOCK;
u_int32_t valid = 0;
int empty = test_bit_le(i, empty_nat_bits);
int full = test_bit_le(i, full_nat_bits);
for (j = 0; j < NAT_ENTRY_PER_BLOCK; j++) {
if (f2fs_test_bit(start_nid + j, nm_i->nid_bitmap))
valid++;
}
if (valid == 0) {
if (!empty || full) {
err = -1;
goto out;
}
} else if (valid == NAT_ENTRY_PER_BLOCK) {
if (empty || !full) {
err = -1;
goto out;
}
} else {
if (empty || full) {
err = -1;
goto out;
}
}
}
out:
free(nat_bits);
if (!err) {
MSG(0, "Info: Checked valid nat_bits in checkpoint\n");
} else {
c.bug_on = 1;
MSG(0, "Info: Corrupted valid nat_bits in checkpoint\n");
}
return err;
}
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
int init_node_manager(struct f2fs_sb_info *sbi)
{
struct f2fs_super_block *sb = F2FS_RAW_SUPER(sbi);
struct f2fs_checkpoint *cp = F2FS_CKPT(sbi);
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
struct f2fs_nm_info *nm_i = NM_I(sbi);
unsigned char *version_bitmap;
unsigned int nat_segs;
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
nm_i->nat_blkaddr = get_sb(nat_blkaddr);
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
/* segment_count_nat includes pair segment so divide to 2. */
nat_segs = get_sb(segment_count_nat) >> 1;
nm_i->nat_blocks = nat_segs << get_sb(log_blocks_per_seg);
nm_i->max_nid = NAT_ENTRY_PER_BLOCK * nm_i->nat_blocks;
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
nm_i->fcnt = 0;
nm_i->nat_cnt = 0;
nm_i->init_scan_nid = get_cp(next_free_nid);
nm_i->next_scan_nid = get_cp(next_free_nid);
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
nm_i->bitmap_size = __bitmap_size(sbi, NAT_BITMAP);
nm_i->nat_bitmap = malloc(nm_i->bitmap_size);
if (!nm_i->nat_bitmap)
return -ENOMEM;
version_bitmap = __bitmap_ptr(sbi, NAT_BITMAP);
if (!version_bitmap)
return -EFAULT;
/* copy version bitmap */
memcpy(nm_i->nat_bitmap, version_bitmap, nm_i->bitmap_size);
return f2fs_init_nid_bitmap(sbi);
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
}
int build_node_manager(struct f2fs_sb_info *sbi)
{
int err;
sbi->nm_info = malloc(sizeof(struct f2fs_nm_info));
if (!sbi->nm_info)
return -ENOMEM;
err = init_node_manager(sbi);
if (err)
return err;
return 0;
}
int build_sit_info(struct f2fs_sb_info *sbi)
{
struct f2fs_super_block *sb = F2FS_RAW_SUPER(sbi);
struct f2fs_checkpoint *cp = F2FS_CKPT(sbi);
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
struct sit_info *sit_i;
unsigned int sit_segs, start;
char *src_bitmap, *dst_bitmap;
unsigned int bitmap_size;
sit_i = malloc(sizeof(struct sit_info));
if (!sit_i)
return -ENOMEM;
SM_I(sbi)->sit_info = sit_i;
sit_i->sentries = calloc(TOTAL_SEGS(sbi) * sizeof(struct seg_entry), 1);
if (!sit_i->sentries)
return -ENOMEM;
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
for (start = 0; start < TOTAL_SEGS(sbi); start++) {
sit_i->sentries[start].cur_valid_map
= calloc(SIT_VBLOCK_MAP_SIZE, 1);
if (!sit_i->sentries[start].cur_valid_map)
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
return -ENOMEM;
}
sit_segs = get_sb(segment_count_sit) >> 1;
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
bitmap_size = __bitmap_size(sbi, SIT_BITMAP);
src_bitmap = __bitmap_ptr(sbi, SIT_BITMAP);
dst_bitmap = malloc(bitmap_size);
memcpy(dst_bitmap, src_bitmap, bitmap_size);
sit_i->sit_base_addr = get_sb(sit_blkaddr);
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
sit_i->sit_blocks = sit_segs << sbi->log_blocks_per_seg;
sit_i->written_valid_blocks = get_cp(valid_block_count);
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
sit_i->sit_bitmap = dst_bitmap;
sit_i->bitmap_size = bitmap_size;
sit_i->dirty_sentries = 0;
sit_i->sents_per_block = SIT_ENTRY_PER_BLOCK;
sit_i->elapsed_time = get_cp(elapsed_time);
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
return 0;
}
void reset_curseg(struct f2fs_sb_info *sbi, int type)
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
{
struct curseg_info *curseg = CURSEG_I(sbi, type);
struct summary_footer *sum_footer;
struct seg_entry *se;
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
sum_footer = &(curseg->sum_blk->footer);
memset(sum_footer, 0, sizeof(struct summary_footer));
if (IS_DATASEG(type))
SET_SUM_TYPE(sum_footer, SUM_TYPE_DATA);
if (IS_NODESEG(type))
SET_SUM_TYPE(sum_footer, SUM_TYPE_NODE);
se = get_seg_entry(sbi, curseg->segno);
se->type = type;
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
}
static void read_compacted_summaries(struct f2fs_sb_info *sbi)
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
{
struct curseg_info *curseg;
unsigned int i, j, offset;
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
block_t start;
char *kaddr;
int ret;
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
start = start_sum_block(sbi);
kaddr = (char *)malloc(PAGE_SIZE);
ret = dev_read_block(kaddr, start++);
ASSERT(ret >= 0);
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
curseg = CURSEG_I(sbi, CURSEG_HOT_DATA);
memcpy(&curseg->sum_blk->journal.n_nats, kaddr, SUM_JOURNAL_SIZE);
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
curseg = CURSEG_I(sbi, CURSEG_COLD_DATA);
memcpy(&curseg->sum_blk->journal.n_sits, kaddr + SUM_JOURNAL_SIZE,
SUM_JOURNAL_SIZE);
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
offset = 2 * SUM_JOURNAL_SIZE;
for (i = CURSEG_HOT_DATA; i <= CURSEG_COLD_DATA; i++) {
unsigned short blk_off;
struct curseg_info *curseg = CURSEG_I(sbi, i);
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
reset_curseg(sbi, i);
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
if (curseg->alloc_type == SSR)
blk_off = sbi->blocks_per_seg;
else
blk_off = curseg->next_blkoff;
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
ASSERT(blk_off <= ENTRIES_IN_SUM);
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
for (j = 0; j < blk_off; j++) {
struct f2fs_summary *s;
s = (struct f2fs_summary *)(kaddr + offset);
curseg->sum_blk->entries[j] = *s;
offset += SUMMARY_SIZE;
if (offset + SUMMARY_SIZE <=
PAGE_CACHE_SIZE - SUM_FOOTER_SIZE)
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
continue;
memset(kaddr, 0, PAGE_SIZE);
ret = dev_read_block(kaddr, start++);
ASSERT(ret >= 0);
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
offset = 0;
}
}
free(kaddr);
}
static void restore_node_summary(struct f2fs_sb_info *sbi,
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
unsigned int segno, struct f2fs_summary_block *sum_blk)
{
struct f2fs_node *node_blk;
struct f2fs_summary *sum_entry;
block_t addr;
unsigned int i;
int ret;
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
node_blk = malloc(F2FS_BLKSIZE);
ASSERT(node_blk);
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
/* scan the node segment */
addr = START_BLOCK(sbi, segno);
sum_entry = &sum_blk->entries[0];
for (i = 0; i < sbi->blocks_per_seg; i++, sum_entry++) {
ret = dev_read_block(node_blk, addr);
ASSERT(ret >= 0);
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
sum_entry->nid = node_blk->footer.nid;
addr++;
}
free(node_blk);
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
}
static void read_normal_summaries(struct f2fs_sb_info *sbi, int type)
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
{
struct f2fs_checkpoint *cp = F2FS_CKPT(sbi);
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
struct f2fs_summary_block *sum_blk;
struct curseg_info *curseg;
unsigned int segno = 0;
block_t blk_addr = 0;
int ret;
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
if (IS_DATASEG(type)) {
segno = get_cp(cur_data_segno[type]);
if (is_set_ckpt_flags(cp, CP_UMOUNT_FLAG))
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
blk_addr = sum_blk_addr(sbi, NR_CURSEG_TYPE, type);
else
blk_addr = sum_blk_addr(sbi, NR_CURSEG_DATA_TYPE, type);
} else {
segno = get_cp(cur_node_segno[type - CURSEG_HOT_NODE]);
if (is_set_ckpt_flags(cp, CP_UMOUNT_FLAG))
blk_addr = sum_blk_addr(sbi, NR_CURSEG_NODE_TYPE,
type - CURSEG_HOT_NODE);
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
else
blk_addr = GET_SUM_BLKADDR(sbi, segno);
}
sum_blk = (struct f2fs_summary_block *)malloc(PAGE_SIZE);
ret = dev_read_block(sum_blk, blk_addr);
ASSERT(ret >= 0);
if (IS_NODESEG(type) && !is_set_ckpt_flags(cp, CP_UMOUNT_FLAG))
restore_node_summary(sbi, segno, sum_blk);
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
curseg = CURSEG_I(sbi, type);
memcpy(curseg->sum_blk, sum_blk, PAGE_CACHE_SIZE);
reset_curseg(sbi, type);
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
free(sum_blk);
}
void update_sum_entry(struct f2fs_sb_info *sbi, block_t blk_addr,
struct f2fs_summary *sum)
{
struct f2fs_summary_block *sum_blk;
u32 segno, offset;
int type, ret;
struct seg_entry *se;
segno = GET_SEGNO(sbi, blk_addr);
offset = OFFSET_IN_SEG(sbi, blk_addr);
se = get_seg_entry(sbi, segno);
sum_blk = get_sum_block(sbi, segno, &type);
memcpy(&sum_blk->entries[offset], sum, sizeof(*sum));
sum_blk->footer.entry_type = IS_NODESEG(se->type) ? SUM_TYPE_NODE :
SUM_TYPE_DATA;
/* write SSA all the time */
sload.f2fs: fix missing SSA updates If sload many larger files to disk, the SSA that doesn't cached will be missed. Mar 17 12:04:39 localhost kernel: ------------[ cut here ]------------ Mar 17 12:04:39 localhost kernel: kernel BUG at fs/f2fs/gc.c:899! Mar 17 12:04:39 localhost kernel: invalid opcode: 0000 [#1] SMP Mar 17 12:04:39 localhost kernel: Modules linked in: f2fs tun bridge stp llc fuse ip_set nfnetlink vmw_vsock_vmci_transport vsock snd_seq_midi snd_seq_midi_event snd_ens1371 gameport snd_ac97_codec coretemp ac97_bus crct10dif_pclmul crc32_pclmul ppdev snd_seq snd_pcm ghash_clmulni_intel intel_rapl_perf vmw_balloon snd_rawmidi joydev snd_timer snd_seq_device snd soundcore parport_pc parport nfit acpi_cpufreq tpm_tis tpm_tis_core shpchp vmw_vmci tpm i2c_piix4 nfsd auth_rpcgss nfs_acl lockd grace sunrpc xfs libcrc32c vmwgfx drm_kms_helper ttm drm e1000 crc32c_intel mptspi scsi_transport_spi serio_raw mptscsih mptbase ata_generic pata_acpi fjes Mar 17 12:04:39 localhost kernel: CPU: 0 PID: 6427 Comm: f2fs_gc-8:33 Tainted: G W 4.10.0-f2fs+ #25 Mar 17 12:04:39 localhost kernel: Hardware name: VMware, Inc. VMware Virtual Platform/440BX Desktop Reference Platform, BIOS 6.00 07/02/2015 Mar 17 12:04:39 localhost kernel: task: ffff94ba7d998000 task.stack: ffffb6e4c2e50000 Mar 17 12:04:39 localhost kernel: RIP: 0010:do_garbage_collect+0xa39/0xb60 [f2fs] Mar 17 12:04:39 localhost kernel: RSP: 0018:ffffb6e4c2e53cc0 EFLAGS: 00010213 Mar 17 12:04:39 localhost kernel: RAX: ffff94baa0427000 RBX: 0000000000000001 RCX: 0000000000000002 Mar 17 12:04:39 localhost kernel: RDX: 0000000000000000 RSI: fffff5e2c28109c0 RDI: fffff5e2c28109c0 Mar 17 12:04:39 localhost kernel: RBP: ffffb6e4c2e53dc0 R08: ffff94ba7dfc72f0 R09: fffff5e2c28109dc Mar 17 12:04:39 localhost kernel: R10: 0000000000000040 R11: ffff94ba7dfc7238 R12: 0000000000000418 Mar 17 12:04:39 localhost kernel: R13: fffff5e2c28109c0 R14: 0000000000000417 R15: ffff94ba3c021000 Mar 17 12:04:39 localhost kernel: FS: 0000000000000000(0000) GS:ffff94babb600000(0000) knlGS:0000000000000000 Mar 17 12:04:39 localhost kernel: CS: 0010 DS: 0000 ES: 0000 CR0: 0000000080050033 Mar 17 12:04:39 localhost kernel: CR2: 00007fc42a0d7000 CR3: 00000000a7e94000 CR4: 00000000001406f0 Mar 17 12:04:39 localhost kernel: Call Trace: Mar 17 12:04:39 localhost kernel: ? find_next_bit+0xb/0x10 Mar 17 12:04:39 localhost kernel: f2fs_gc+0x111/0x480 [f2fs] Mar 17 12:04:39 localhost kernel: ? prepare_to_wait_event+0x79/0x160 Mar 17 12:04:39 localhost kernel: gc_thread_func+0x2d0/0x3f0 [f2fs] Mar 17 12:04:39 localhost kernel: ? __schedule+0x273/0x860 Mar 17 12:04:39 localhost kernel: ? remove_wait_queue+0x70/0x70 Mar 17 12:04:39 localhost kernel: kthread+0x101/0x140 Mar 17 12:04:39 localhost kernel: ? f2fs_gc+0x480/0x480 [f2fs] Mar 17 12:04:39 localhost kernel: ? kthread_park+0x90/0x90 Mar 17 12:04:39 localhost kernel: ret_from_fork+0x2c/0x40 Mar 17 12:04:39 localhost kernel: Code: 48 8d 84 24 90 00 00 00 48 89 c7 48 89 44 24 28 e8 7d cc ba e6 e9 17 fa ff ff 48 c7 c6 48 3f 84 c0 48 89 c7 e8 59 8d 9d e6 0f 0b <0f> 0b 48 c7 c6 48 3f 84 c0 4c 89 ff e8 46 8d 9d e6 0f 0b 8b b4 Mar 17 12:04:39 localhost kernel: RIP: do_garbage_collect+0xa39/0xb60 [f2fs] RSP: ffffb6e4c2e53cc0 Mar 17 12:04:39 localhost kernel: ---[ end trace 926d61b064ed1f2d ]--- Fixes: 767a93ea8b ("defrag.f2fs: fix missing SSA updates") Signed-off-by: Kinglong Mee <kinglongmee@gmail.com> Signed-off-by: Jaegeuk Kim <jaegeuk@kernel.org>
2017-03-17 11:08:21 +00:00
ret = dev_write_block(sum_blk, GET_SUM_BLKADDR(sbi, segno));
ASSERT(ret >= 0);
if (type == SEG_TYPE_NODE || type == SEG_TYPE_DATA ||
type == SEG_TYPE_MAX)
free(sum_blk);
}
static void restore_curseg_summaries(struct f2fs_sb_info *sbi)
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
{
int type = CURSEG_HOT_DATA;
if (is_set_ckpt_flags(F2FS_CKPT(sbi), CP_COMPACT_SUM_FLAG)) {
read_compacted_summaries(sbi);
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
type = CURSEG_HOT_NODE;
}
for (; type <= CURSEG_COLD_NODE; type++)
read_normal_summaries(sbi, type);
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
}
static void build_curseg(struct f2fs_sb_info *sbi)
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
{
struct f2fs_checkpoint *cp = F2FS_CKPT(sbi);
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
struct curseg_info *array;
unsigned short blk_off;
unsigned int segno;
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
int i;
array = malloc(sizeof(*array) * NR_CURSEG_TYPE);
ASSERT(array);
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
SM_I(sbi)->curseg_array = array;
for (i = 0; i < NR_CURSEG_TYPE; i++) {
array[i].sum_blk = malloc(PAGE_CACHE_SIZE);
ASSERT(array[i].sum_blk);
if (i <= CURSEG_COLD_DATA) {
blk_off = get_cp(cur_data_blkoff[i]);
segno = get_cp(cur_data_segno[i]);
}
if (i > CURSEG_COLD_DATA) {
blk_off = get_cp(cur_node_blkoff[i - CURSEG_HOT_NODE]);
segno = get_cp(cur_node_segno[i - CURSEG_HOT_NODE]);
}
ASSERT(segno < TOTAL_SEGS(sbi));
ASSERT(blk_off < DEFAULT_BLOCKS_PER_SEGMENT);
array[i].segno = segno;
array[i].zone = GET_ZONENO_FROM_SEGNO(sbi, segno);
array[i].next_segno = NULL_SEGNO;
array[i].next_blkoff = blk_off;
array[i].alloc_type = cp->alloc_type[i];
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
}
restore_curseg_summaries(sbi);
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
}
static inline void check_seg_range(struct f2fs_sb_info *sbi, unsigned int segno)
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
{
unsigned int end_segno = SM_I(sbi)->segment_count - 1;
ASSERT(segno <= end_segno);
}
void get_current_sit_page(struct f2fs_sb_info *sbi,
unsigned int segno, struct f2fs_sit_block *sit_blk)
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
{
struct sit_info *sit_i = SIT_I(sbi);
unsigned int offset = SIT_BLOCK_OFFSET(sit_i, segno);
block_t blk_addr = sit_i->sit_base_addr + offset;
int ret;
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
check_seg_range(sbi, segno);
/* calculate sit block address */
if (f2fs_test_bit(offset, sit_i->sit_bitmap))
blk_addr += sit_i->sit_blocks;
ret = dev_read_block(sit_blk, blk_addr);
ASSERT(ret >= 0);
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
}
void rewrite_current_sit_page(struct f2fs_sb_info *sbi,
unsigned int segno, struct f2fs_sit_block *sit_blk)
{
struct sit_info *sit_i = SIT_I(sbi);
unsigned int offset = SIT_BLOCK_OFFSET(sit_i, segno);
block_t blk_addr = sit_i->sit_base_addr + offset;
int ret;
/* calculate sit block address */
if (f2fs_test_bit(offset, sit_i->sit_bitmap))
blk_addr += sit_i->sit_blocks;
ret = dev_write_block(sit_blk, blk_addr);
ASSERT(ret >= 0);
}
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
void check_block_count(struct f2fs_sb_info *sbi,
unsigned int segno, struct f2fs_sit_entry *raw_sit)
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
{
struct f2fs_sm_info *sm_info = SM_I(sbi);
unsigned int end_segno = sm_info->segment_count - 1;
int valid_blocks = 0;
unsigned int i;
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
/* check segment usage */
if (GET_SIT_VBLOCKS(raw_sit) > sbi->blocks_per_seg)
ASSERT_MSG("Invalid SIT vblocks: segno=0x%x, %u",
segno, GET_SIT_VBLOCKS(raw_sit));
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
/* check boundary of a given segment number */
if (segno > end_segno)
ASSERT_MSG("Invalid SEGNO: 0x%x", segno);
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
/* check bitmap with valid block count */
for (i = 0; i < SIT_VBLOCK_MAP_SIZE; i++)
valid_blocks += get_bits_in_byte(raw_sit->valid_map[i]);
if (GET_SIT_VBLOCKS(raw_sit) != valid_blocks)
ASSERT_MSG("Wrong SIT valid blocks: segno=0x%x, %u vs. %u",
segno, GET_SIT_VBLOCKS(raw_sit), valid_blocks);
if (GET_SIT_TYPE(raw_sit) >= NO_CHECK_TYPE)
ASSERT_MSG("Wrong SIT type: segno=0x%x, %u",
segno, GET_SIT_TYPE(raw_sit));
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
}
void seg_info_from_raw_sit(struct seg_entry *se,
struct f2fs_sit_entry *raw_sit)
{
se->valid_blocks = GET_SIT_VBLOCKS(raw_sit);
memcpy(se->cur_valid_map, raw_sit->valid_map, SIT_VBLOCK_MAP_SIZE);
se->type = GET_SIT_TYPE(raw_sit);
se->orig_type = GET_SIT_TYPE(raw_sit);
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
se->mtime = le64_to_cpu(raw_sit->mtime);
}
struct seg_entry *get_seg_entry(struct f2fs_sb_info *sbi,
unsigned int segno)
{
struct sit_info *sit_i = SIT_I(sbi);
return &sit_i->sentries[segno];
}
struct f2fs_summary_block *get_sum_block(struct f2fs_sb_info *sbi,
unsigned int segno, int *ret_type)
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
{
struct f2fs_checkpoint *cp = F2FS_CKPT(sbi);
struct f2fs_summary_block *sum_blk;
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
struct curseg_info *curseg;
int type, ret;
u64 ssa_blk;
*ret_type= SEG_TYPE_MAX;
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
ssa_blk = GET_SUM_BLKADDR(sbi, segno);
for (type = 0; type < NR_CURSEG_NODE_TYPE; type++) {
if (segno == get_cp(cur_node_segno[type])) {
curseg = CURSEG_I(sbi, CURSEG_HOT_NODE + type);
if (!IS_SUM_NODE_SEG(curseg->sum_blk->footer)) {
ASSERT_MSG("segno [0x%x] indicates a data "
"segment, but should be node",
segno);
*ret_type = -SEG_TYPE_CUR_NODE;
} else {
*ret_type = SEG_TYPE_CUR_NODE;
}
return curseg->sum_blk;
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
}
}
for (type = 0; type < NR_CURSEG_DATA_TYPE; type++) {
if (segno == get_cp(cur_data_segno[type])) {
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
curseg = CURSEG_I(sbi, type);
if (IS_SUM_NODE_SEG(curseg->sum_blk->footer)) {
ASSERT_MSG("segno [0x%x] indicates a node "
"segment, but should be data",
segno);
*ret_type = -SEG_TYPE_CUR_DATA;
} else {
*ret_type = SEG_TYPE_CUR_DATA;
}
return curseg->sum_blk;
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
}
}
sum_blk = calloc(BLOCK_SZ, 1);
ASSERT(sum_blk);
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
ret = dev_read_block(sum_blk, ssa_blk);
ASSERT(ret >= 0);
if (IS_SUM_NODE_SEG(sum_blk->footer))
*ret_type = SEG_TYPE_NODE;
else if (IS_SUM_DATA_SEG(sum_blk->footer))
*ret_type = SEG_TYPE_DATA;
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
return sum_blk;
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
}
int get_sum_entry(struct f2fs_sb_info *sbi, u32 blk_addr,
struct f2fs_summary *sum_entry)
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
{
struct f2fs_summary_block *sum_blk;
u32 segno, offset;
int type;
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
segno = GET_SEGNO(sbi, blk_addr);
offset = OFFSET_IN_SEG(sbi, blk_addr);
sum_blk = get_sum_block(sbi, segno, &type);
memcpy(sum_entry, &(sum_blk->entries[offset]),
sizeof(struct f2fs_summary));
if (type == SEG_TYPE_NODE || type == SEG_TYPE_DATA ||
type == SEG_TYPE_MAX)
free(sum_blk);
return type;
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
}
static void get_nat_entry(struct f2fs_sb_info *sbi, nid_t nid,
struct f2fs_nat_entry *raw_nat)
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
{
struct f2fs_nat_block *nat_block;
pgoff_t block_addr;
int entry_off;
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
int ret;
if (lookup_nat_in_journal(sbi, nid, raw_nat) >= 0)
return;
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
nat_block = (struct f2fs_nat_block *)calloc(BLOCK_SZ, 1);
ASSERT(nat_block);
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
entry_off = nid % NAT_ENTRY_PER_BLOCK;
block_addr = current_nat_addr(sbi, nid);
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
ret = dev_read_block(nat_block, block_addr);
ASSERT(ret >= 0);
memcpy(raw_nat, &nat_block->entries[entry_off],
sizeof(struct f2fs_nat_entry));
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
free(nat_block);
}
void update_data_blkaddr(struct f2fs_sb_info *sbi, nid_t nid,
u16 ofs_in_node, block_t newaddr)
{
struct f2fs_node *node_blk = NULL;
struct node_info ni;
block_t oldaddr, startaddr, endaddr;
int ret;
node_blk = (struct f2fs_node *)calloc(BLOCK_SZ, 1);
ASSERT(node_blk);
get_node_info(sbi, nid, &ni);
/* read node_block */
ret = dev_read_block(node_blk, ni.blk_addr);
ASSERT(ret >= 0);
/* check its block address */
if (node_blk->footer.nid == node_blk->footer.ino) {
int ofs = get_extra_isize(node_blk);
oldaddr = le32_to_cpu(node_blk->i.i_addr[ofs + ofs_in_node]);
node_blk->i.i_addr[ofs + ofs_in_node] = cpu_to_le32(newaddr);
} else {
oldaddr = le32_to_cpu(node_blk->dn.addr[ofs_in_node]);
node_blk->dn.addr[ofs_in_node] = cpu_to_le32(newaddr);
}
ret = dev_write_block(node_blk, ni.blk_addr);
ASSERT(ret >= 0);
/* check extent cache entry */
if (node_blk->footer.nid != node_blk->footer.ino) {
get_node_info(sbi, le32_to_cpu(node_blk->footer.ino), &ni);
/* read inode block */
ret = dev_read_block(node_blk, ni.blk_addr);
ASSERT(ret >= 0);
}
startaddr = le32_to_cpu(node_blk->i.i_ext.blk_addr);
endaddr = startaddr + le32_to_cpu(node_blk->i.i_ext.len);
if (oldaddr >= startaddr && oldaddr < endaddr) {
node_blk->i.i_ext.len = 0;
/* update inode block */
ret = dev_write_block(node_blk, ni.blk_addr);
ASSERT(ret >= 0);
}
free(node_blk);
}
void update_nat_blkaddr(struct f2fs_sb_info *sbi, nid_t ino,
nid_t nid, block_t newaddr)
{
struct f2fs_nat_block *nat_block;
pgoff_t block_addr;
int entry_off;
int ret;
nat_block = (struct f2fs_nat_block *)calloc(BLOCK_SZ, 1);
ASSERT(nat_block);
entry_off = nid % NAT_ENTRY_PER_BLOCK;
block_addr = current_nat_addr(sbi, nid);
ret = dev_read_block(nat_block, block_addr);
ASSERT(ret >= 0);
if (ino)
nat_block->entries[entry_off].ino = cpu_to_le32(ino);
nat_block->entries[entry_off].block_addr = cpu_to_le32(newaddr);
if (c.func == FSCK)
F2FS_FSCK(sbi)->entries[nid] = nat_block->entries[entry_off];
ret = dev_write_block(nat_block, block_addr);
ASSERT(ret >= 0);
free(nat_block);
}
void get_node_info(struct f2fs_sb_info *sbi, nid_t nid, struct node_info *ni)
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
{
struct f2fs_nat_entry raw_nat;
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
ni->nid = nid;
if (c.func == FSCK) {
node_info_from_raw_nat(ni, &(F2FS_FSCK(sbi)->entries[nid]));
if (ni->blk_addr)
return;
/* nat entry is not cached, read it */
}
get_nat_entry(sbi, nid, &raw_nat);
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
node_info_from_raw_nat(ni, &raw_nat);
}
void build_sit_entries(struct f2fs_sb_info *sbi)
{
struct sit_info *sit_i = SIT_I(sbi);
struct curseg_info *curseg = CURSEG_I(sbi, CURSEG_COLD_DATA);
struct f2fs_journal *journal = &curseg->sum_blk->journal;
struct f2fs_sit_block *sit_blk;
struct seg_entry *se;
struct f2fs_sit_entry sit;
unsigned int i, segno;
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
sit_blk = calloc(BLOCK_SZ, 1);
ASSERT(sit_blk);
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
for (segno = 0; segno < TOTAL_SEGS(sbi); segno++) {
se = &sit_i->sentries[segno];
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
get_current_sit_page(sbi, segno, sit_blk);
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
sit = sit_blk->entries[SIT_ENTRY_OFFSET(sit_i, segno)];
check_block_count(sbi, segno, &sit);
seg_info_from_raw_sit(se, &sit);
}
free(sit_blk);
for (i = 0; i < sits_in_cursum(journal); i++) {
segno = le32_to_cpu(segno_in_journal(journal, i));
se = &sit_i->sentries[segno];
sit = sit_in_journal(journal, i);
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
check_block_count(sbi, segno, &sit);
seg_info_from_raw_sit(se, &sit);
}
}
int build_segment_manager(struct f2fs_sb_info *sbi)
{
struct f2fs_super_block *sb = F2FS_RAW_SUPER(sbi);
struct f2fs_checkpoint *cp = F2FS_CKPT(sbi);
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
struct f2fs_sm_info *sm_info;
sm_info = malloc(sizeof(struct f2fs_sm_info));
if (!sm_info)
return -ENOMEM;
/* init sm info */
sbi->sm_info = sm_info;
sm_info->seg0_blkaddr = get_sb(segment0_blkaddr);
sm_info->main_blkaddr = get_sb(main_blkaddr);
sm_info->segment_count = get_sb(segment_count);
sm_info->reserved_segments = get_cp(rsvd_segment_count);
sm_info->ovp_segments = get_cp(overprov_segment_count);
sm_info->main_segments = get_sb(segment_count_main);
sm_info->ssa_blkaddr = get_sb(ssa_blkaddr);
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
build_sit_info(sbi);
build_curseg(sbi);
build_sit_entries(sbi);
return 0;
}
void build_sit_area_bitmap(struct f2fs_sb_info *sbi)
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
{
struct f2fs_fsck *fsck = F2FS_FSCK(sbi);
struct f2fs_sm_info *sm_i = SM_I(sbi);
unsigned int segno = 0;
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
char *ptr = NULL;
u32 sum_vblocks = 0;
u32 free_segs = 0;
struct seg_entry *se;
fsck->sit_area_bitmap_sz = sm_i->main_segments * SIT_VBLOCK_MAP_SIZE;
fsck->sit_area_bitmap = calloc(1, fsck->sit_area_bitmap_sz);
ASSERT(fsck->sit_area_bitmap);
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
ptr = fsck->sit_area_bitmap;
ASSERT(fsck->sit_area_bitmap_sz == fsck->main_area_bitmap_sz);
for (segno = 0; segno < TOTAL_SEGS(sbi); segno++) {
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
se = get_seg_entry(sbi, segno);
memcpy(ptr, se->cur_valid_map, SIT_VBLOCK_MAP_SIZE);
ptr += SIT_VBLOCK_MAP_SIZE;
if (se->valid_blocks == 0x0) {
if (le32_to_cpu(sbi->ckpt->cur_node_segno[0]) == segno ||
le32_to_cpu(sbi->ckpt->cur_data_segno[0]) == segno ||
le32_to_cpu(sbi->ckpt->cur_node_segno[1]) == segno ||
le32_to_cpu(sbi->ckpt->cur_data_segno[1]) == segno ||
le32_to_cpu(sbi->ckpt->cur_node_segno[2]) == segno ||
le32_to_cpu(sbi->ckpt->cur_data_segno[2]) == segno) {
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
continue;
} else {
free_segs++;
}
} else {
sum_vblocks += se->valid_blocks;
}
}
fsck->chk.sit_valid_blocks = sum_vblocks;
fsck->chk.sit_free_segs = free_segs;
DBG(1, "Blocks [0x%x : %d] Free Segs [0x%x : %d]\n\n",
sum_vblocks, sum_vblocks,
free_segs, free_segs);
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
}
void rewrite_sit_area_bitmap(struct f2fs_sb_info *sbi)
{
struct f2fs_fsck *fsck = F2FS_FSCK(sbi);
struct curseg_info *curseg = CURSEG_I(sbi, CURSEG_COLD_DATA);
struct sit_info *sit_i = SIT_I(sbi);
struct f2fs_sit_block *sit_blk;
unsigned int segno = 0;
struct f2fs_summary_block *sum = curseg->sum_blk;
char *ptr = NULL;
sit_blk = calloc(BLOCK_SZ, 1);
ASSERT(sit_blk);
/* remove sit journal */
sum->journal.n_sits = 0;
ptr = fsck->main_area_bitmap;
for (segno = 0; segno < TOTAL_SEGS(sbi); segno++) {
struct f2fs_sit_entry *sit;
struct seg_entry *se;
u16 valid_blocks = 0;
u16 type;
int i;
get_current_sit_page(sbi, segno, sit_blk);
sit = &sit_blk->entries[SIT_ENTRY_OFFSET(sit_i, segno)];
memcpy(sit->valid_map, ptr, SIT_VBLOCK_MAP_SIZE);
/* update valid block count */
for (i = 0; i < SIT_VBLOCK_MAP_SIZE; i++)
valid_blocks += get_bits_in_byte(sit->valid_map[i]);
se = get_seg_entry(sbi, segno);
memcpy(se->cur_valid_map, ptr, SIT_VBLOCK_MAP_SIZE);
se->valid_blocks = valid_blocks;
type = se->type;
if (type >= NO_CHECK_TYPE) {
ASSERT_MSG("Invalide type and valid blocks=%x,%x",
segno, valid_blocks);
type = 0;
}
sit->vblocks = cpu_to_le16((type << SIT_VBLOCKS_SHIFT) |
valid_blocks);
rewrite_current_sit_page(sbi, segno, sit_blk);
ptr += SIT_VBLOCK_MAP_SIZE;
}
free(sit_blk);
}
static int flush_sit_journal_entries(struct f2fs_sb_info *sbi)
{
struct curseg_info *curseg = CURSEG_I(sbi, CURSEG_COLD_DATA);
struct f2fs_journal *journal = &curseg->sum_blk->journal;
struct sit_info *sit_i = SIT_I(sbi);
struct f2fs_sit_block *sit_blk;
unsigned int segno;
int i;
sit_blk = calloc(BLOCK_SZ, 1);
ASSERT(sit_blk);
for (i = 0; i < sits_in_cursum(journal); i++) {
struct f2fs_sit_entry *sit;
struct seg_entry *se;
segno = segno_in_journal(journal, i);
se = get_seg_entry(sbi, segno);
get_current_sit_page(sbi, segno, sit_blk);
sit = &sit_blk->entries[SIT_ENTRY_OFFSET(sit_i, segno)];
memcpy(sit->valid_map, se->cur_valid_map, SIT_VBLOCK_MAP_SIZE);
sit->vblocks = cpu_to_le16((se->type << SIT_VBLOCKS_SHIFT) |
se->valid_blocks);
sit->mtime = cpu_to_le64(se->mtime);
rewrite_current_sit_page(sbi, segno, sit_blk);
}
free(sit_blk);
journal->n_sits = 0;
return i;
}
static int flush_nat_journal_entries(struct f2fs_sb_info *sbi)
{
struct curseg_info *curseg = CURSEG_I(sbi, CURSEG_HOT_DATA);
struct f2fs_journal *journal = &curseg->sum_blk->journal;
struct f2fs_nat_block *nat_block;
pgoff_t block_addr;
int entry_off;
nid_t nid;
int ret;
int i = 0;
nat_block = (struct f2fs_nat_block *)calloc(BLOCK_SZ, 1);
ASSERT(nat_block);
next:
if (i >= nats_in_cursum(journal)) {
free(nat_block);
journal->n_nats = 0;
return i;
}
nid = le32_to_cpu(nid_in_journal(journal, i));
entry_off = nid % NAT_ENTRY_PER_BLOCK;
block_addr = current_nat_addr(sbi, nid);
ret = dev_read_block(nat_block, block_addr);
ASSERT(ret >= 0);
memcpy(&nat_block->entries[entry_off], &nat_in_journal(journal, i),
sizeof(struct f2fs_nat_entry));
ret = dev_write_block(nat_block, block_addr);
ASSERT(ret >= 0);
i++;
goto next;
}
void flush_journal_entries(struct f2fs_sb_info *sbi)
{
int n_nats = flush_nat_journal_entries(sbi);
int n_sits = flush_sit_journal_entries(sbi);
if (n_nats || n_sits)
write_checkpoint(sbi);
}
void flush_sit_entries(struct f2fs_sb_info *sbi)
{
struct f2fs_checkpoint *cp = F2FS_CKPT(sbi);
struct sit_info *sit_i = SIT_I(sbi);
struct f2fs_sit_block *sit_blk;
unsigned int segno = 0;
u32 free_segs = 0;
sit_blk = calloc(BLOCK_SZ, 1);
ASSERT(sit_blk);
/* update free segments */
for (segno = 0; segno < TOTAL_SEGS(sbi); segno++) {
struct f2fs_sit_entry *sit;
struct seg_entry *se;
se = get_seg_entry(sbi, segno);
if (!se->dirty)
continue;
get_current_sit_page(sbi, segno, sit_blk);
sit = &sit_blk->entries[SIT_ENTRY_OFFSET(sit_i, segno)];
memcpy(sit->valid_map, se->cur_valid_map, SIT_VBLOCK_MAP_SIZE);
sit->vblocks = cpu_to_le16((se->type << SIT_VBLOCKS_SHIFT) |
se->valid_blocks);
rewrite_current_sit_page(sbi, segno, sit_blk);
if (se->valid_blocks == 0x0 && !IS_CUR_SEGNO(sbi, segno))
free_segs++;
}
free(sit_blk);
set_cp(free_segment_count, free_segs);
}
int find_next_free_block(struct f2fs_sb_info *sbi, u64 *to, int left, int type)
{
struct f2fs_super_block *sb = F2FS_RAW_SUPER(sbi);
struct seg_entry *se;
u32 segno;
u32 offset;
int not_enough = 0;
u64 end_blkaddr = (get_sb(segment_count_main) <<
get_sb(log_blocks_per_seg)) + get_sb(main_blkaddr);
if (get_free_segments(sbi) <= SM_I(sbi)->reserved_segments + 1)
not_enough = 1;
while (*to >= SM_I(sbi)->main_blkaddr && *to < end_blkaddr) {
segno = GET_SEGNO(sbi, *to);
offset = OFFSET_IN_SEG(sbi, *to);
se = get_seg_entry(sbi, segno);
if (se->valid_blocks == sbi->blocks_per_seg ||
IS_CUR_SEGNO(sbi, segno)) {
*to = left ? START_BLOCK(sbi, segno) - 1:
START_BLOCK(sbi, segno + 1);
continue;
}
if (se->valid_blocks == 0 && not_enough) {
*to = left ? START_BLOCK(sbi, segno) - 1:
START_BLOCK(sbi, segno + 1);
continue;
}
if (se->valid_blocks == 0 && !(segno % sbi->segs_per_sec)) {
struct seg_entry *se2;
unsigned int i;
for (i = 1; i < sbi->segs_per_sec; i++) {
se2 = get_seg_entry(sbi, segno + i);
if (se2->valid_blocks)
break;
}
if (i == sbi->segs_per_sec)
return 0;
}
if (se->type == type &&
!f2fs_test_bit(offset, (const char *)se->cur_valid_map))
return 0;
*to = left ? *to - 1: *to + 1;
}
return -1;
}
void move_curseg_info(struct f2fs_sb_info *sbi, u64 from)
{
int i, ret;
/* update summary blocks having nullified journal entries */
for (i = 0; i < NO_CHECK_TYPE; i++) {
struct curseg_info *curseg = CURSEG_I(sbi, i);
struct f2fs_summary_block buf;
u32 old_segno;
u64 ssa_blk, to;
/* update original SSA too */
ssa_blk = GET_SUM_BLKADDR(sbi, curseg->segno);
ret = dev_write_block(curseg->sum_blk, ssa_blk);
ASSERT(ret >= 0);
to = from;
ret = find_next_free_block(sbi, &to, 0, i);
ASSERT(ret == 0);
old_segno = curseg->segno;
curseg->segno = GET_SEGNO(sbi, to);
curseg->next_blkoff = OFFSET_IN_SEG(sbi, to);
curseg->alloc_type = SSR;
/* update new segno */
ssa_blk = GET_SUM_BLKADDR(sbi, curseg->segno);
ret = dev_read_block(&buf, ssa_blk);
ASSERT(ret >= 0);
memcpy(curseg->sum_blk, &buf, SUM_ENTRIES_SIZE);
/* update se->types */
reset_curseg(sbi, i);
DBG(1, "Move curseg[%d] %x -> %x after %"PRIx64"\n",
i, old_segno, curseg->segno, from);
}
}
void zero_journal_entries(struct f2fs_sb_info *sbi)
{
int i;
for (i = 0; i < NO_CHECK_TYPE; i++)
CURSEG_I(sbi, i)->sum_blk->journal.n_nats = 0;
}
void write_curseg_info(struct f2fs_sb_info *sbi)
{
struct f2fs_checkpoint *cp = F2FS_CKPT(sbi);
int i;
for (i = 0; i < NO_CHECK_TYPE; i++) {
cp->alloc_type[i] = CURSEG_I(sbi, i)->alloc_type;
if (i < CURSEG_HOT_NODE) {
set_cp(cur_data_segno[i], CURSEG_I(sbi, i)->segno);
set_cp(cur_data_blkoff[i],
CURSEG_I(sbi, i)->next_blkoff);
} else {
int n = i - CURSEG_HOT_NODE;
set_cp(cur_node_segno[n], CURSEG_I(sbi, i)->segno);
set_cp(cur_node_blkoff[n],
CURSEG_I(sbi, i)->next_blkoff);
}
}
}
int lookup_nat_in_journal(struct f2fs_sb_info *sbi, u32 nid,
struct f2fs_nat_entry *raw_nat)
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
{
struct curseg_info *curseg = CURSEG_I(sbi, CURSEG_HOT_DATA);
struct f2fs_journal *journal = &curseg->sum_blk->journal;
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
int i = 0;
for (i = 0; i < nats_in_cursum(journal); i++) {
if (le32_to_cpu(nid_in_journal(journal, i)) == nid) {
memcpy(raw_nat, &nat_in_journal(journal, i),
sizeof(struct f2fs_nat_entry));
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
DBG(3, "==> Found nid [0x%x] in nat cache\n", nid);
return i;
}
}
return -1;
}
void nullify_nat_entry(struct f2fs_sb_info *sbi, u32 nid)
{
struct curseg_info *curseg = CURSEG_I(sbi, CURSEG_HOT_DATA);
struct f2fs_journal *journal = &curseg->sum_blk->journal;
struct f2fs_nat_block *nat_block;
pgoff_t block_addr;
int entry_off;
int ret;
int i = 0;
/* check in journal */
for (i = 0; i < nats_in_cursum(journal); i++) {
if (le32_to_cpu(nid_in_journal(journal, i)) == nid) {
memset(&nat_in_journal(journal, i), 0,
sizeof(struct f2fs_nat_entry));
FIX_MSG("Remove nid [0x%x] in nat journal", nid);
return;
}
}
nat_block = (struct f2fs_nat_block *)calloc(BLOCK_SZ, 1);
ASSERT(nat_block);
entry_off = nid % NAT_ENTRY_PER_BLOCK;
block_addr = current_nat_addr(sbi, nid);
ret = dev_read_block(nat_block, block_addr);
ASSERT(ret >= 0);
if (nid == F2FS_NODE_INO(sbi) || nid == F2FS_META_INO(sbi)) {
FIX_MSG("nid [0x%x] block_addr= 0x%x -> 0x1", nid,
le32_to_cpu(nat_block->entries[entry_off].block_addr));
nat_block->entries[entry_off].block_addr = cpu_to_le32(0x1);
} else {
memset(&nat_block->entries[entry_off], 0,
sizeof(struct f2fs_nat_entry));
FIX_MSG("Remove nid [0x%x] in NAT", nid);
}
ret = dev_write_block(nat_block, block_addr);
ASSERT(ret >= 0);
free(nat_block);
}
void write_checkpoint(struct f2fs_sb_info *sbi)
{
struct f2fs_checkpoint *cp = F2FS_CKPT(sbi);
struct f2fs_super_block *sb = F2FS_RAW_SUPER(sbi);
block_t orphan_blks = 0;
unsigned long long cp_blk_no;
u32 flags = CP_UMOUNT_FLAG;
int i, ret;
u_int32_t crc = 0;
if (is_set_ckpt_flags(cp, CP_ORPHAN_PRESENT_FLAG)) {
orphan_blks = __start_sum_addr(sbi) - 1;
flags |= CP_ORPHAN_PRESENT_FLAG;
}
set_cp(free_segment_count, get_free_segments(sbi));
set_cp(valid_block_count, sbi->total_valid_block_count);
set_cp(cp_pack_total_block_count, 8 + orphan_blks + get_sb(cp_payload));
flags = update_nat_bits_flags(sb, cp, flags);
set_cp(ckpt_flags, flags);
crc = f2fs_cal_crc32(F2FS_SUPER_MAGIC, cp, CHECKSUM_OFFSET);
*((__le32 *)((unsigned char *)cp + CHECKSUM_OFFSET)) = cpu_to_le32(crc);
cp_blk_no = get_sb(cp_blkaddr);
if (sbi->cur_cp == 2)
cp_blk_no += 1 << get_sb(log_blocks_per_seg);
/* write the first cp */
ret = dev_write_block(cp, cp_blk_no++);
ASSERT(ret >= 0);
/* skip payload */
cp_blk_no += get_sb(cp_payload);
/* skip orphan blocks */
cp_blk_no += orphan_blks;
/* update summary blocks having nullified journal entries */
for (i = 0; i < NO_CHECK_TYPE; i++) {
struct curseg_info *curseg = CURSEG_I(sbi, i);
u64 ssa_blk;
ret = dev_write_block(curseg->sum_blk, cp_blk_no++);
ASSERT(ret >= 0);
/* update original SSA too */
ssa_blk = GET_SUM_BLKADDR(sbi, curseg->segno);
ret = dev_write_block(curseg->sum_blk, ssa_blk);
ASSERT(ret >= 0);
}
/* Write nat bits */
if (flags & CP_NAT_BITS_FLAG)
write_nat_bits(sbi, sb, cp, sbi->cur_cp);
/* in case of sudden power off */
ret = f2fs_fsync_device();
ASSERT(ret >= 0);
/* write the last cp */
ret = dev_write_block(cp, cp_blk_no++);
ASSERT(ret >= 0);
}
void write_superblock(struct f2fs_super_block *new_sb)
{
int index, ret;
u_int8_t *buf;
buf = calloc(BLOCK_SZ, 1);
ASSERT(buf);
memcpy(buf + F2FS_SUPER_OFFSET, new_sb, sizeof(*new_sb));
for (index = 0; index < 2; index++) {
ret = dev_write_block(buf, index);
ASSERT(ret >= 0);
}
free(buf);
DBG(0, "Info: Done to rebuild superblock\n");
}
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
void build_nat_area_bitmap(struct f2fs_sb_info *sbi)
{
struct curseg_info *curseg = CURSEG_I(sbi, CURSEG_HOT_DATA);
struct f2fs_journal *journal = &curseg->sum_blk->journal;
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
struct f2fs_fsck *fsck = F2FS_FSCK(sbi);
struct f2fs_super_block *sb = F2FS_RAW_SUPER(sbi);
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
struct f2fs_nm_info *nm_i = NM_I(sbi);
struct f2fs_nat_block *nat_block;
struct node_info ni;
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
u32 nid, nr_nat_blks;
pgoff_t block_off;
pgoff_t block_addr;
int seg_off;
int ret;
unsigned int i;
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
nat_block = (struct f2fs_nat_block *)calloc(BLOCK_SZ, 1);
ASSERT(nat_block);
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
/* Alloc & build nat entry bitmap */
nr_nat_blks = (get_sb(segment_count_nat) / 2) <<
sbi->log_blocks_per_seg;
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
fsck->nr_nat_entries = nr_nat_blks * NAT_ENTRY_PER_BLOCK;
fsck->nat_area_bitmap_sz = (fsck->nr_nat_entries + 7) / 8;
fsck->nat_area_bitmap = calloc(fsck->nat_area_bitmap_sz, 1);
ASSERT(fsck->nat_area_bitmap);
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
fsck->entries = calloc(sizeof(struct f2fs_nat_entry),
fsck->nr_nat_entries);
ASSERT(fsck->entries);
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
for (block_off = 0; block_off < nr_nat_blks; block_off++) {
seg_off = block_off >> sbi->log_blocks_per_seg;
block_addr = (pgoff_t)(nm_i->nat_blkaddr +
(seg_off << sbi->log_blocks_per_seg << 1) +
(block_off & ((1 << sbi->log_blocks_per_seg) - 1)));
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
if (f2fs_test_bit(block_off, nm_i->nat_bitmap))
block_addr += sbi->blocks_per_seg;
ret = dev_read_block(nat_block, block_addr);
ASSERT(ret >= 0);
nid = block_off * NAT_ENTRY_PER_BLOCK;
for (i = 0; i < NAT_ENTRY_PER_BLOCK; i++) {
ni.nid = nid + i;
if ((nid + i) == F2FS_NODE_INO(sbi) ||
(nid + i) == F2FS_META_INO(sbi)) {
/*
* block_addr of node/meta inode should be 0x1.
* Set this bit, and fsck_verify will fix it.
*/
if (le32_to_cpu(nat_block->entries[i].block_addr) != 0x1) {
ASSERT_MSG("\tError: ino[0x%x] block_addr[0x%x] is invalid\n",
nid + i, le32_to_cpu(nat_block->entries[i].block_addr));
f2fs_set_bit(nid + i, fsck->nat_area_bitmap);
}
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
continue;
}
node_info_from_raw_nat(&ni, &nat_block->entries[i]);
if (ni.blk_addr == 0x0)
continue;
if (ni.ino == 0x0) {
ASSERT_MSG("\tError: ino[0x%8x] or blk_addr[0x%16x]"
" is invalid\n", ni.ino, ni.blk_addr);
}
if (ni.ino == (nid + i)) {
fsck->nat_valid_inode_cnt++;
DBG(3, "ino[0x%8x] maybe is inode\n", ni.ino);
}
if (nid + i == 0) {
/*
* nat entry [0] must be null. If
* it is corrupted, set its bit in
* nat_area_bitmap, fsck_verify will
* nullify it
*/
ASSERT_MSG("Invalid nat entry[0]: "
"blk_addr[0x%x]\n", ni.blk_addr);
fsck->chk.valid_nat_entry_cnt--;
}
DBG(3, "nid[0x%8x] addr[0x%16x] ino[0x%8x]\n",
nid + i, ni.blk_addr, ni.ino);
f2fs_set_bit(nid + i, fsck->nat_area_bitmap);
fsck->chk.valid_nat_entry_cnt++;
fsck->entries[nid + i] = nat_block->entries[i];
}
}
/* Traverse nat journal, update the corresponding entries */
for (i = 0; i < nats_in_cursum(journal); i++) {
struct f2fs_nat_entry raw_nat;
nid = le32_to_cpu(nid_in_journal(journal, i));
ni.nid = nid;
DBG(3, "==> Found nid [0x%x] in nat cache, update it\n", nid);
/* Clear the original bit and count */
if (fsck->entries[nid].block_addr != 0x0) {
fsck->chk.valid_nat_entry_cnt--;
f2fs_clear_bit(nid, fsck->nat_area_bitmap);
if (fsck->entries[nid].ino == nid)
fsck->nat_valid_inode_cnt--;
}
/* Use nat entries in journal */
memcpy(&raw_nat, &nat_in_journal(journal, i),
sizeof(struct f2fs_nat_entry));
node_info_from_raw_nat(&ni, &raw_nat);
if (ni.blk_addr != 0x0) {
if (ni.ino == 0x0)
ASSERT_MSG("\tError: ino[0x%8x] or blk_addr[0x%16x]"
" is invalid\n", ni.ino, ni.blk_addr);
if (ni.ino == nid) {
fsck->nat_valid_inode_cnt++;
DBG(3, "ino[0x%8x] maybe is inode\n", ni.ino);
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
}
f2fs_set_bit(nid, fsck->nat_area_bitmap);
fsck->chk.valid_nat_entry_cnt++;
DBG(3, "nid[0x%x] in nat cache\n", nid);
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
}
fsck->entries[nid] = raw_nat;
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
}
free(nat_block);
DBG(1, "valid nat entries (block_addr != 0x0) [0x%8x : %u]\n",
fsck->chk.valid_nat_entry_cnt,
fsck->chk.valid_nat_entry_cnt);
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
}
static int check_sector_size(struct f2fs_super_block *sb)
{
int index;
u_int32_t log_sectorsize, log_sectors_per_block;
u_int8_t *zero_buff;
log_sectorsize = log_base_2(c.sector_size);
log_sectors_per_block = log_base_2(c.sectors_per_blk);
if (log_sectorsize == get_sb(log_sectorsize) &&
log_sectors_per_block == get_sb(log_sectors_per_block))
return 0;
zero_buff = calloc(F2FS_BLKSIZE, 1);
ASSERT(zero_buff);
set_sb(log_sectorsize, log_sectorsize);
set_sb(log_sectors_per_block, log_sectors_per_block);
memcpy(zero_buff + F2FS_SUPER_OFFSET, sb, sizeof(*sb));
DBG(1, "\tWriting super block, at offset 0x%08x\n", 0);
for (index = 0; index < 2; index++) {
if (dev_write(zero_buff, index * F2FS_BLKSIZE, F2FS_BLKSIZE)) {
MSG(1, "\tError: Failed while writing supe_blk "
"on disk!!! index : %d\n", index);
free(zero_buff);
return -1;
}
}
free(zero_buff);
return 0;
}
static void tune_sb_features(struct f2fs_sb_info *sbi)
{
int sb_changed = 0;
struct f2fs_super_block *sb = F2FS_RAW_SUPER(sbi);
if (!(sb->feature & cpu_to_le32(F2FS_FEATURE_ENCRYPT)) &&
c.feature & cpu_to_le32(F2FS_FEATURE_ENCRYPT)) {
sb->feature |= cpu_to_le32(F2FS_FEATURE_ENCRYPT);
MSG(0, "Info: Set Encryption feature\n");
sb_changed = 1;
}
/* TODO: quota needs to allocate inode numbers */
c.feature = sb->feature;
if (!sb_changed)
return;
write_superblock(sb);
}
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
int f2fs_do_mount(struct f2fs_sb_info *sbi)
{
struct f2fs_checkpoint *cp = NULL;
struct f2fs_super_block *sb = NULL;
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
int ret;
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
sbi->active_logs = NR_CURSEG_TYPE;
ret = validate_super_block(sbi, 0);
if (ret) {
ret = validate_super_block(sbi, 1);
if (ret)
return -1;
}
sb = F2FS_RAW_SUPER(sbi);
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
ret = check_sector_size(sb);
if (ret)
return -1;
print_raw_sb_info(sb);
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
init_sb_info(sbi);
ret = get_valid_checkpoint(sbi);
if (ret) {
ERR_MSG("Can't find valid checkpoint\n");
return -1;
}
if (sanity_check_ckpt(sbi)) {
ERR_MSG("Checkpoint is polluted\n");
return -1;
}
cp = F2FS_CKPT(sbi);
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
print_ckpt_info(sbi);
if (c.auto_fix || c.preen_mode) {
u32 flag = get_cp(ckpt_flags);
if (flag & CP_FSCK_FLAG ||
(exist_qf_ino(sb) && (!(flag & CP_UMOUNT_FLAG) ||
flag & CP_ERROR_FLAG))) {
c.fix_on = 1;
} else if (!c.preen_mode) {
print_cp_state(flag);
return 1;
}
}
c.bug_on = 0;
tune_sb_features(sbi);
/* precompute checksum seed for metadata */
if (c.feature & cpu_to_le32(F2FS_FEATURE_INODE_CHKSUM))
c.chksum_seed = f2fs_cal_crc32(~0, sb->uuid, sizeof(sb->uuid));
sbi->total_valid_node_count = get_cp(valid_node_count);
sbi->total_valid_inode_count = get_cp(valid_inode_count);
sbi->user_block_count = get_cp(user_block_count);
sbi->total_valid_block_count = get_cp(valid_block_count);
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
sbi->last_valid_block_count = sbi->total_valid_block_count;
sbi->alloc_valid_block_count = 0;
if (build_segment_manager(sbi)) {
ERR_MSG("build_segment_manager failed\n");
return -1;
}
if (build_node_manager(sbi)) {
ERR_MSG("build_node_manager failed\n");
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
return -1;
}
/* Check nat_bits */
if (c.func == FSCK && is_set_ckpt_flags(cp, CP_NAT_BITS_FLAG)) {
if (check_nat_bits(sbi, sb, cp) && c.fix_on)
write_nat_bits(sbi, sb, cp, sbi->cur_cp);
}
return 0;
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
}
void f2fs_do_umount(struct f2fs_sb_info *sbi)
{
struct sit_info *sit_i = SIT_I(sbi);
struct f2fs_sm_info *sm_i = SM_I(sbi);
struct f2fs_nm_info *nm_i = NM_I(sbi);
unsigned int i;
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
/* free nm_info */
if (c.func == SLOAD || c.func == FSCK)
free(nm_i->nid_bitmap);
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
free(nm_i->nat_bitmap);
free(sbi->nm_info);
/* free sit_info */
for (i = 0; i < TOTAL_SEGS(sbi); i++)
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
free(sit_i->sentries[i].cur_valid_map);
f2fs-tools: add fsck.f2fs and dump.f2fs fsck.f2fs checks file system consistency, but does not repair a broken file system yet. dump.f2fs shows the information of a specific inode and makes dump file of SSA and SIT. f2fs checks file system consistency as follows: o When data about used area and its metadata are identical, f2fs is considered consistent. To verify such consistency, we use three bitmaps: nat_area_bitmap, sit_area_bitmap, and main_area_bitmap. First, each bit in nat_area_bitmap corresponds to a nid in NAT. Second, each bit in sit_area_bitmap corresponds to a valid block in a segment. This bitmap is same to the total valid_map of f2fs_sit_entries in SIT. Last, each bit in main_area_bitmap corresponds to a block in main area except meta area. After a consistency check of each block, we set or clear the corresponding bit of each bitmap. From the root node, we start consistency check. The verified information varies according to block type. 1. NODE - Read information of node block from NAT - Check if block address is allocated using node info. - Check if the type of f2fs_summary related to nid in SSA is NODE. - Update the corresponding bit in nat_area_bitmap. - Update the corresponding bit in sit_area_bitmap. - Set the corresponding bit in main_area_bitmap to 1. - Then, read node block. According to its attribute, explore inode/direct node/indirect node/double indirect node recursively. - If it is an inode block, we also check its xattr and hard link. 2. DATA - Check if the type of f2fs_summary related to nid in SSA is DATA. - Set the corresponding bits of sit_area_bitmap and main_area_bitmap to visited - If it is a dentry block, traverse each dentries that may be regular file or directory. At this time, it will check inode block again. Finally, we verify whether - every nat_area_bitmap is visited - any unreachable hard link exists - values of sit_area_bitmap and main_area_bitmap are identical - total_valid_block_count/node_count/inode_count are correct Usage: o fsck.f2fs # fsck.f2fs /dev/sdx options: -d debug level [default:0] o dump.f2fs # dump.f2fs -i [ino] /dev/sdx # dump.f2fs -s 0~-1 /dev/sdx (SIT dump) # dump.f2fs -a 0~-1 /dev/sdx (SSA dump) options: -d debug level [default:0] -i inode no (hex) -s [SIT dump segno from #1~#2 (decimal), for all 0~-1] -a [SSA dump segno from #1~#2 (decimal), for all 0~-1] Note: To use dump.f2fs, please run make install or ln -s fsck.f2fs dump.f2fs Signed-off-by: Changman Lee <cm224.lee@samsung.com> Signed-off-by: Byoung Geun Kim <bgbg.kim@samsung.com> Signed-off-by: Jaegeuk Kim <jaegeuk.kim@samsung.com>
2013-07-04 08:11:32 +00:00
free(sit_i->sit_bitmap);
free(sm_i->sit_info);
/* free sm_info */
for (i = 0; i < NR_CURSEG_TYPE; i++)
free(sm_i->curseg_array[i].sum_blk);
free(sm_i->curseg_array);
free(sbi->sm_info);
free(sbi->ckpt);
free(sbi->raw_super);
}