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21.2. Retrieving File Path from the Gluster Volume
The heal info command lists the GFIDs of the files that needs to be healed. If you want to find the path of the files associated with the GFIDs, use the
getfattr
utility. The getfattr
utility enables you to locate a file residing on a gluster volume brick. You can retrieve the path of a file even if the filename is unknown.
21.2.1. Retrieving Known File Name
To retrieve a file path when the file name is known, execute the following command in the Fuse mount directory:
# getfattr -n trusted.glusterfs.pathinfo -e text <path_to_fuse_mount/filename>
Where,
path_to_fuse_mount: The fuse mount where the gluster volume is mounted.
filename: The name of the file for which the path information is to be retrieved.
For example:
# getfattr -n trusted.glusterfs.pathinfo -e text /mnt/fuse_mnt/File1 getfattr: Removing leading '/' from absolute path names # file: mnt/fuse_mnt/File1 trusted.glusterfs.pathinfo="(<DISTRIBUTE:testvol-dht> (<REPLICATE:testvol-replicate-0> <POSIX(/rhgs/brick1):tuxpad:/rhgs/brick1/File1> <POSIX(/rhgs/brick2):tuxpad:/rhgs/brick2/File1>))"
The command output displays the brick pathinfo under the <POSIX> tag. In this example output, two paths are displayed as the file is replicated twice.
21.2.2. Retrieving Unknown File Name
You can retrieve the file path of an unknown file using its gfid string. The gfid string is the hyphenated version of the trusted.gfid attribute. For example, if the gfid is 80b0b1642ea4478ba4cda9f76c1e6efd, then the gfid string will be 80b0b164-2ea4-478b-a4cd-a9f76c1e6efd.
Note
To obtain the gfid of a file, run the following command:
# getfattr -d -m. -e hex /path/to/file/on/the/brick
21.2.3. Retrieving File Path using gfid String
To retrieve the file path using the gfid string, follow these steps:
- Fuse mount the volume with the aux-gfid option enabled.
# mount -t glusterfs -o aux-gfid-mount hostname:volume-name <path_to_fuse_mnt>
Where,path_to_fuse_mount: The fuse mount where the gluster volume is mounted.For example:# mount -t glusterfs -o aux-gfid-mount 127.0.0.2:testvol /mnt/aux_mount
- After mounting the volume, execute the following command
# getfattr -n trusted.glusterfs.pathinfo -e text <path-to-fuse-mnt>/.gfid/<GFID string>
Where,path_to_fuse_mount: The fuse mount where the gluster volume is mounted.GFID string: The GFID string.For example:# getfattr -n trusted.glusterfs.pathinfo -e text /mnt/aux_mount/.gfid/80b0b164-2ea4-478b-a4cd-a9f76c1e6efd getfattr: Removing leading '/' from absolute path names # file: mnt/aux_mount/.gfid/80b0b164-2ea4-478b-a4cd-a9f76c1e6efd trusted.glusterfs.pathinfo="(<DISTRIBUTE:testvol-dht> (<REPLICATE:testvol-replicate-0> <POSIX(/rhgs/brick2):tuxpad:/rhgs/brick2/File1> <POSIX(/rhgs/brick1):tuxpad:/rhgs/brick1/File1>))
The command output displays the brick pathinfo under the <POSIX> tag. In this example output, two paths are displayed as the file is replicated twice.
21.2.4. Controlling Self-heal for Dispersed Volumes
For dispersed volumes, when a node with multiple bricks goes offline and comes back online, self-heal daemon starts healing the bricks. This self-heal can lead to high CPU usage in case of large amounts of data and can affect the ongoing I/O operations, thus, decreasing storage efficiency.
To control the CPU and memory usage of the self-heal daemon, follow these steps:
- Navigate to the scripts folder using the following command:
# cd /usr/share/glusterfs/scripts
- Determine the PID of the self-heal daemon using the following command:
# ps -aef | grep glustershd
The output will be in the following format:root 1565 1 0 Feb05 ? 00:09:17 /usr/sbin/glusterfs -s localhost --volfile-id gluster/glustershd -p /var/run/gluster/glustershd/glustershd.pid -l /var/log/glusterfs/glustershd.log -S /var/run/gluster/ed49b959a0dc9b2185913084e3b2b339.socket --xlator-option *replicate*.node-uuid=13dbfa1e-ebbf-4cee-a1ac-ca6763903c55 root 16766 14420 0 19:00 pts/0 00:00:00 grep --color=auto glustershd
In this output, 1565 represents the PID of the selfheald service. - Execute the
control-cpu-load
script using the following command:# sh control-cpu-load.sh
- When the system prompts for the following input, type the PID of the self-heal daemon acquired from the previous step and press
Enter
:[root@XX-XX scripts]# sh control-cpu-load.sh Enter gluster daemon pid for which you want to control CPU. 1565
- When the system prompts for the following input, type
y
and pressEnter
:If you want to continue the script to attach 1565 with new cgroup_gluster_1565 cgroup Press (y/n)?
In this example, 1565 represents the PID of the selfheald service. The PID of the selfheald service can vary from system to system. - When the system prompts for the following input, enter the required quota value to be assigned to the self-heal daemon and press
Enter
:Creating child cgroup directory 'cgroup_gluster_1565 cgroup' for glustershd.service. Enter quota value in range [10,100]: 25
In this example, the quota value for the self-heal daemon is set as25
.Note
The recommended quota value for a self-heal daemon is 25. However, the quota value can be set by the user on a run-time basis.The system prompts the following notification once the quota value is successfully set:Entered quota value is 25 Setting 25000 to cpu.cfs_quota_us for gluster_cgroup. Tasks are attached successfully specific to 1565 to cgroup_gluster_1565.
To check the CPU usage for the self-heal daemon, execute the
top
command.
Important
Perform this procedure every time the daemon is restarted with the new daemon PID.