LVM + dm-cache (unencrypted)

NOTE: This partition scheme is tailored towards a desktop computer setup with enough RAM and no SWAP (and therefore no hibernate/suspend-to-disk support).

CAUTION: This setup does NOT utilize LUKS disk encryption.

LVM cache combines the benefits of a fast mass storage device (e.g. SSD) with a slow mass storage device (HDD), utilizing the former as a read/write cache for the latter. This allows the system to manage blocks of data in a way such that often used blocks are kept on the fast cache device, making the whole system a lot more responsive. Over time the cache device fills up with frequently accessed data and the system accesses the cache device more often than the origin device (the HDD). This can be used to cost-effectively speed up an inexpensive large storage device (think Apple Fusion Drive).

This guide assumes the following:

• /dev/nvme0n1 is the primary disk (cache device)
• /dev/sda is the secondary disk (origin device)

Nomenclature

Term	Description
Physical Volume (PV)	On-disk partitioning format to be combined in a VG to a common storage pool
Volume Group (VG)	Grouping of one or more PVs to provide a combined storage pool from which storage can be requested in the form of LVs.
Logical Volume (LV)	Logical partition format which can be accessed like a block device to hold file systems and data.

Preparing the cache device

1. List available disks

   fdisk -l
   

2. Start partitionaing tool for primary disk (cfdisk is a little easier to use as it has a nice TUI)

   WARNING: Make sure to select your actually desired device!

   cfdisk /dev/nvme0n1
   

3. Partition with the following scheme

   FS Type	Size	Mount Point	Comment

   | vfat | 1G | /boot | EFI System | | LVM | (remaining) | | Linux LVM |

Preparing the origin device

1. Start partioning tool for secondary disk

   WARNING: Make sure to select your actually desired device!

   cfdisk /dev/sda
   

2. Partition with the following scheme

   FS Type	Size	Mount Point	Comment

   | LVM | (all) | | Linux LVM |

Creating physical volumes, volume group and logical volumes

1. Create LVM physical volumes

   pvcreate /dev/nvme0n1p2   # SSD
   pvcreate /dev/sda1        # HDD
   

2. Create LVM volume group

   NOTE: vg0 is used as an example here. Use whatever you like.

   vgcreate vg0 /dev/nvme0n1p2 /dev/sda1
   

3. Create LVM logical volumes

   lvcreate -l 100%FREE -n lv_root vg0 /dev/sda1
   lvcreate --type cache-pool -n lv_cache -l 100%FREE vg0 /dev/nvme0n1p2
   
   # Link cache devices
   lvconvert --type cache --cachepool vg0/lv_cache vg0/lv_root
   

Formatting devices

1. Create partitions

   mkfs.fat -F 32 /dev/nvme0n1p1        # EFI System Partition
   mkfs.btrfs /dev/mapper/vg0-lv_root   # Btrfs root file system
   

2. Create Btrfs subvolumes

   # First, mount root file system
   mount /dev/mapper/vg0-lv_root /mnt
   
   # Create subvolumes
   btrfs subvolume create /mnt/@
   btrfs subvolume create /mnt/@home
   

3. Mount partitions

   # Unmount the root file system
   umount -R /mnt
   
   # Mount the @ subvolume
   mount /dev/mapper/vg0-lv_root -o noatime,compress-force=zstd,space_cache=v2,subvol=@ /mnt
   
   # Create mountpoints
   mkdir -p /mnt/{boot,home}
   
   # Mount the remaining partitions/subvolumes
   mount /dev/nvme0n1p1 /mnt/boot
   mount /dev/mapper/vg0-lv_root -o noatime,compress-force=zstd,space_cache=v2,subvol=@home /mnt/home