CoreOS Container Linux disk layout
Container Linux is designed to be reliably updated via a continuous stream of updates. The operating system has 9 different disk partitions, utilizing a subset of those to make each update safe and enable a roll-back to a previous version if anything goes wrong.
|1||EFI-SYSTEM||Contains the bootloader||FAT32|
|2||BIOS-BOOT||Contains the second stages of GRUB for use when booting from BIOS||grub core.img|
|3||USR-A||One of two active/passive partitions holding Container Linux||EXT4|
|4||USR-B||One of two active/passive partitions holding Container Linux||(empty on first boot)|
|5||ROOT-C||This partition is reserved for future use||(none)|
|6||OEM||Stores configuration data specific to an OEM platform||EXT4|
|7||OEM-CONFIG||Optional storage for an OEM||(defined by OEM)|
|8||(unused)||This partition is reserved for future use||(none)|
|9||ROOT||Stateful partition for storing persistent data||EXT4, BTRFS, or XFS|
For more information, read more about the disk layout used by Chromium and ChromeOS, which inspired the layout used by Container Linux.
Container Linux is divided into two main filesystems, a read-only
/usr and a stateful read/write
USR-B partitions are interchangeable and one of the two is mounted as a read-only filesystem at
/usr. After an update, Container Linux will re-configure the GPT priority attribute, instructing the bootloader to boot from the passive (newly updated) partition. Here's an example of the priority flags set on an Amazon EC2 machine:
$ sudo cgpt show /dev/xvda start size part contents 270336 2097152 3 Label: "USR-A" Type: Alias for coreos-rootfs UUID: 7130C94A-213A-4E5A-8E26-6CCE9662F132 Attr: priority=1 tries=0 successful=1
Container Linux images ship with the
USR-B partition empty to reduce the image filesize. The first Container Linux update will populate it and start the normal active/passive scheme.
The OEM partition is also mounted as read-only at
All stateful data, including container images, is stored within the read/write filesystem mounted at
/. On first boot, the ROOT partition and filesystem will expand to fill any remaining free space at the end of the drive.
The data stored on the root partition isn't manipulated by the update process. In return, we do our best to prevent you from modifying the data in /usr.
Due to the unique disk layout of Container Linux, an
rm -rf --one-file-system --no-preserve-root / is an unsupported but valid operation to purge any OS data. On the next boot, the machine should just start from a clean state.