LVM: Difference between revisions

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** lvconvert
** lvconvert
* [https://tuxfixer.com/backup-and-restore-logical-volume-using-lvm-snapshot/ Backup and Restore Logical Volume using LVM Snapshot]
* [https://tuxfixer.com/backup-and-restore-logical-volume-using-lvm-snapshot/ Backup and Restore Logical Volume using LVM Snapshot]
* [https://linuxconfig.org/create-and-restore-manual-logical-volume-snapshots LVM backup and restore snapshot in Linux
* [https://linuxconfig.org/create-and-restore-manual-logical-volume-snapshots LVM backup and restore snapshot in Linux]
]


= Raspberry Pi =
= Raspberry Pi =
* [https://raspberrypi.stackexchange.com/questions/85958/easy-backups-and-snapshots-of-a-running-system-with-lvm Easy backups and snapshots of a running system with LVM]
* [https://raspberrypi.stackexchange.com/questions/85958/easy-backups-and-snapshots-of-a-running-system-with-lvm Easy backups and snapshots of a running system with LVM]

Revision as of 14:56, 28 February 2022

Resource

Cheatsheet

Creation

  • Setup LVM and pool hard drives in Ubuntu or Kodibuntu
    # Step 1 Find your drive names
    # lsblk -o NAME,FSTYPE,SIZE,MOUNTPOINT,LABEL
    NAME         FSTYPE        SIZE MOUNTPOINT   LABEL
    sda                      223.6G              
    ├─sda1                    1007K              
    ├─sda2       vfat          512M /boot/efi    
    └─sda3       LVM2_member 223.1G              
      ├─pve-swap swap            8G [SWAP]       
      └─pve-root ext4        215.1G /            
    nvme0n1                  465.8G              
    └─nvme0n1p1  ext4        465.8G /mnt/pve/vm1 
    
    # Step 2 Format your drives
    fdisk /dev/sdX
    
    # Step 3 Create physical volume
    pvcreate /dev/sd[bcd]
    pvdisplay
    
    # Step 4 Adding the VG (Volume Group) to the LVM
    vgcreate {VG_NAME} /dev/sd[bcd]
    vgdisplay
    
    # Step 5 Adding the LV (Logical Volume) to the LVM VG (Volume Group)
    lvcreate -l 100%FREE -n {LV_NAME} {VG_NAME}
    lvdisplay
    
    # Step 6 FORMATTING OUR NEW LVM LV (LOGICAL VOLUME)
    mkfs.ext4 {LV_PATH}
    
    # Step 7 MOUNT LVM LV (LOGICAL VOLUME) ON BOOT
    blkid
    # Grab the UUID of your storage space, 
    # it will be after the /dev/mapper/{VG_NAME}-{LV_NAME}
    nano /etc/fstab
    mount -a
    
    # Step 8 ENABLE SMART DRIVE MONITORING
    nano /etc/defaults/smartmontools
    nano /etc/smartd.conf
  • LVM Layout & Arch Linux Tutorial – Configure LVM on Arch Linux 2017
    # Step 0 See available physical disks
    fdisk
    
    # Step 1 Create new Physical Volume
    pvcreate /dev/vdb
    pvcreate /dev/vdc
    pvdisplay 
    
    # Step 2 Create new Volume Group (VG)
    vgcreate archVG /dev/vdb /dev/vdc
    vgdisplay
    
    # Step 3 Logical Volume
    lvcreate -L 5G archVG -n archLV01
    lvcreate -L 15G archVG -n archLV02
    lvdisplay
    lsblk 
    
    # Step 4 Format the new volume
    mkfs.ext4 /dev/mapper/archVG-archLV01
    
    # Step 5 Mount
    mount /dev/mapper/archVG-archLV01 /mnt
  • How to Extend LVM Disk on Ubuntu 20.04
    # Step 1. Check the file system list
    sudo df -h /home/
    
    # Step 2. Check the Physical Volume (pv)
    sudo pvs
    sudo vgdisplay
    sudo lvdisplay
    
    # Step 3. Create a New Physical Volume
    sudo fdisk -l
    sudo lvmdiskscan
    sudo pvcreate /dev/sdb
    sudo lvmdiskscan -l
    
    # Step 4. Add the new Physical Volume (pv) to Existing Logical Volume (lv)
    sudo vgextend ubuntu-vg /dev/sdb
    sudo lvm lvextend -l +100%FREE /dev/ubuntu-vg/ubuntu-lv
    
    sudo resize2fs -p /dev/mapper/ubuntu--vg-ubuntu--lv
    sudo df -h
  • How to add new disk to existing Volume Group
    # Step 1 Create Physical Volume
    pvcreate /dev/vdc
    
    # Step 2 Add Physical Volume to Existing Volume Group
    vgdisplay
    vgextend manjaro_lvm /dev/vdc
    vgdisplay

Delete

Snapshot

Raspberry Pi