How to Check and Repair EXT4 Filesystem in Linux
The fsck (stands for File System Consistency Check) is used to check and repair one or more Linux filesystems.
This check will run automatically at boot time when a filesystem inconsistencies detected. Also, can be run manually as needed.
You can use the fsck command to repair corrupted file systems when the system fails to boot, or a partition can’t be mounted, or if it’s become read-only.
In this article, we’ll see how to use the ‘fsck’ or ‘e2fsck’ command in Linux to repair a corrupted file system.
Note:
- Execute the fsck on an unmounted file systems to avoid any data corruption in the file system.
- For larger file systems, fsck may take a long time to run depending on system speed and disk sizes.
When the file system check is complete, fsck returns one of the following exit code:
| Exit Code | Description |
|---|---|
| 0 | No errors |
| 1 | Filesystem errors corrected |
| 2 | System should be rebooted |
| 4 | Filesystem errors left uncorrected |
| 8 | Operational error |
| 16 | Usage or syntax error |
| 32 | Checking canceled by user request |
| 128 | Shared-library error |
Common Syntax:
fsck [option] [device or partition or mount point]
Corrupting EXT4 File System
We are going to intentionally corrupt the EXT4 file system by executing the below command. It trash’s randomly selected file system metadata blocks.
Make a Note: Please don’t test this on Production server, as this may damage your data badly.
sudo umount /data
Corrupting the ext4 file system.
sudo dd if=/dev/zero of=/dev/sdb1 bs=10000 skip=0 count=1 1+0 records in 1+0 records out 10000 bytes (10 kB, 9.8 KiB) copied, 0.00394663 s, 2.5 MB/s
When you try to load the file system, you will see the following error message because it was corrupted.
sudo mount /data mount: /data: wrong fs type, bad option, bad superblock on /dev/sdb1, missing codepage or helper program, or other error.
Repair Corrupted EXT4 & EXT3 File System
You can repair a non-root corrupted ext3 or ext4 file system on a running Linux system. fsck works as a wrapper for the fsck.ext3 and fsck.ext4 commands.
Make a note: If you are not able to unmount some of the Non-root volume due to an issue, boot the system into single user mode or rescue mode to repair it.
Step-1: Unmount the device that you want to run fsck.
sudo umount /dev/sdb1
Step-2: Run fsck to repair the file system:
sudo fsck.ext4 -p /dev/sdb1
-p: Automatically repair any issues that can be safely fixed without user intervention.
If the above option doesn’t resolve the issue, run the fsck command in the below format.
sudo fsck.ext4 -fvy /dev/sdb1 e2fsck 1.45.6 (20-Mar-2020) ext2fs_open2: Bad magic number in super-block fsck.ext4: Superblock invalid, trying backup blocks... Resize inode not valid. Recreate? yes Pass 1: Checking inodes, blocks, and sizes Pass 2: Checking directory structure Pass 3: Checking directory connectivity Pass 4: Checking reference counts Pass 5: Checking group summary information Block bitmap differences: -65536 -65538 -(65541--65542) -(65546--65547) -(65549--65550) -(65555--65557) . . Fix? yes Free inodes count wrong for group #0 (8181, counted=8165). Fix? yes Free inodes count wrong (327669, counted=327653). Fix? yes Padding at end of inode bitmap is not set. Fix? yes /dev/sdb1: ***** FILE SYSTEM WAS MODIFIED ***** 27 inodes used (0.01%, out of 327680) 0 non-contiguous files (0.0%) 0 non-contiguous directories (0.0%) # of inodes with ind/dind/tind blocks: 0/0/0 Extent depth histogram: 19 43294 blocks used (3.30%, out of 1310464) 0 bad blocks 0 large files 16 regular files 2 directories 0 character device files 0 block device files 0 fifos 0 links 0 symbolic links (0 fast symbolic links) 0 sockets ------------ 18 files
Step-3: Once the file system is repaired, mount the partition.
sudo mount /dev/sdb1
2) Repairing LVM Volume with fsck
fsck can be run on LVM logical volumes just like filesystems on standard partitions. Follow the below procedure for repairing a LVM partition:
You can also restore/recover the lvm volume instead of repairing it as needed.
Step-1: Make sure the specific LVM volume is in active state to run fsck. To check the status of LVM, run:
sudo lvscan inactive '/dev/myvg/vol01' [1.00 GiB] inherit ACTIVE '/dev/rhel/swap' [2.07 GiB] inherit ACTIVE '/dev/rhel/root' [<26.93 GiB] inherit
If it’s 'inactive', activate it by running the following command.
sudo lvchange -ay /dev/myvg/vol01 -v Activating logical volume myvg/vol01. activation/volume_list configuration setting not defined: Checking only host tags for myvg/vol01. Creating myvg-vol01 Loading table for myvg-vol01 (253:2). Resuming myvg-vol01 (253:2).
Step-2: Unmount the device or filesystem that you want to run fsck.
sudo umount /dev/myvg/vol01
Step-3: Run fsck to repair the file system. You must enter the path of the LVM volume to run fsck and not an actual physical partition.
sudo fsck.ext4 -fvy /dev/myvg/vol01 e2fsck 1.45.6 (20-Mar-2020) /dev/myvg/vol01: clean, 24/65536 files, 14094/262144 blocks
- -f : Force checking even if the file system seems clean.
- -y : Assume an answer of `yes’ to all questions; allows e2fsck to be used non-interactively.
- -v : Verbose mode
Step-4: Once the file system is repaired, mount the partition.
sudo mount /apps
Conclusion
In this tutorial, we’ve shown you how to repair a corrupted EXT4 filesystems on Linux. You can use the same procedure for EXT3 and other filesystems.
Also, shown you how to run e2fsck on the LVM volumes.
If you have any questions or feedback, feel free to comment below.
转载自:
https://www.2daygeek.com/fsck-repair-corrupted-ext4-file-system-linux/
