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author | Maxim Cournoyer <maxim.cournoyer@gmail.com> | 2019-07-14 20:50:23 +0900 |
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committer | Maxim Cournoyer <maxim.cournoyer@gmail.com> | 2020-05-20 08:30:35 -0400 |
commit | b460ba7992a0b4af2ddb5927dcf062784539ef7b (patch) | |
tree | 4d77d01574da9a7aedf31dc3f16e94d82fa31adb /doc | |
parent | fa35fb58c84d1c1741e4e63c0b37074e35ed2a61 (diff) | |
download | guix-b460ba7992a0b4af2ddb5927dcf062784539ef7b.tar guix-b460ba7992a0b4af2ddb5927dcf062784539ef7b.tar.gz |
bootloader: grub: Allow booting from a Btrfs subvolume.
* gnu/bootloader/grub.scm (strip-mount-point): Remove procedure.
(normalize-file): Add procedure.
(grub-configuration-file): New BTRFS-SUBVOLUME-FILE-NAME parameter. When
defined, prepend its value to the kernel and initrd file names, using the
NORMALIZE-FILE procedure. Adjust the call to EYE-CANDY to pass the
BTRFS-SUBVOLUME-FILE-NAME argument. Normalize the KEYMAP file as well.
(eye-candy): Add a BTRFS-SUBVOLUME-FILE-NAME parameter, and use it, along with
the NORMALIZE-FILE procedure, to normalize the FONT-FILE and IMAGE nested
variables. Adjust doc.
* gnu/bootloader/depthcharge.scm (depthcharge-configuration-file): Adapt.
* gnu/bootloader/extlinux.scm (extlinux-configuration-file): Likewise.
* gnu/system/file-systems.scm (btrfs-subvolume?)
(btrfs-store-subvolume-file-name): New procedures.
* gnu/system.scm (operating-system-bootcfg): Specify the Btrfs
subvolume file name the store resides on to the
`operating-system-bootcfg' procedure, using the new
BTRFS-SUBVOLUME-FILE-NAME argument.
* doc/guix.texi (File Systems): Add a Btrfs subsection to document the use of
subvolumes.
* gnu/tests/install.scm (%btrfs-root-on-subvolume-os)
(%btrfs-root-on-subvolume-os-source)
(%btrfs-root-on-subvolume-installation-script)
(%test-btrfs-root-on-subvolume-os): New variables.
Diffstat (limited to 'doc')
-rw-r--r-- | doc/guix.texi | 104 |
1 files changed, 104 insertions, 0 deletions
diff --git a/doc/guix.texi b/doc/guix.texi index 05f2d595b2..216422fe31 100644 --- a/doc/guix.texi +++ b/doc/guix.texi @@ -11782,6 +11782,110 @@ and unmount user-space FUSE file systems. This requires the @code{fuse.ko} kernel module to be loaded. @end defvr +@node Btrfs file system +@subsection Btrfs file system + +The Btrfs has special features, such as subvolumes, that merit being +explained in more details. The following section attempts to cover +basic as well as complex uses of a Btrfs file system with the Guix +System. + +In its simplest usage, a Btrfs file system can be described, for +example, by: + +@lisp +(file-system + (mount-point "/home") + (type "btrfs") + (device (file-system-label "my-home"))) +@end lisp + +The example below is more complex, as it makes use of a Btrfs +subvolume, named @code{rootfs}. The parent Btrfs file system is labeled +@code{my-btrfs-pool}, and is located on an encrypted device (hence the +dependency on @code{mapped-devices}): + +@lisp +(file-system + (device (file-system-label "my-btrfs-pool")) + (mount-point "/") + (type "btrfs") + (options "subvol=rootfs") + (dependencies mapped-devices)) +@end lisp + +Some bootloaders, for example GRUB, only mount a Btrfs partition at its +top level during the early boot, and rely on their configuration to +refer to the correct subvolume path within that top level. The +bootloaders operating in this way typically produce their configuration +on a running system where the Btrfs partitions are already mounted and +where the subvolume information is readily available. As an example, +@command{grub-mkconfig}, the configuration generator command shipped +with GRUB, reads @file{/proc/self/mountinfo} to determine the top-level +path of a subvolume. + +The Guix System produces a bootloader configuration using the operating +system configuration as its sole input; it is therefore necessary to +extract the subvolume name on which @file{/gnu/store} lives (if any) +from that operating system configuration. To better illustrate, +consider a subvolume named 'rootfs' which contains the root file system +data. In such situation, the GRUB bootloader would only see the top +level of the root Btrfs partition, e.g.: + +@example +/ (top level) +├── rootfs (subvolume directory) + ├── gnu (normal directory) + ├── store (normal directory) +[...] +@end example + +Thus, the subvolume name must be prepended to the @file{/gnu/store} path +of the kernel, initrd binaries and any other files referred to in the +GRUB configuration that must be found during the early boot. + +The next example shows a nested hierarchy of subvolumes and +directories: + +@example +/ (top level) +├── rootfs (subvolume) + ├── gnu (normal directory) + ├── store (subvolume) +[...] +@end example + +This scenario would work without mounting the 'store' subvolume. +Mounting 'rootfs' is sufficient, since the subvolume name matches its +intended mount point in the file system hierarchy. Alternatively, the +'store' subvolume could be referred to by setting the @code{subvol} +option to either @code{/rootfs/gnu/store} or @code{rootfs/gnu/store}. + +Finally, a more contrived example of nested subvolumes: + +@example +/ (top level) +├── root-snapshots (subvolume) + ├── root-current (subvolume) + ├── guix-store (subvolume) +[...] +@end example + +Here, the 'guix-store' subvolume doesn't match its intended mount point, +so it is necessary to mount it. The subvolume must be fully specified, +by passing its file name to the @code{subvol} option. To illustrate, +the 'guix-store' subvolume could be mounted on @file{/gnu/store} by using +a file system declaration such as: + +@lisp +(file-system + (device (file-system-label "btrfs-pool-1")) + (mount-point "/gnu/store") + (type "btrfs") + (options "subvol=root-snapshots/root-current/guix-store,\ +compress-force=zstd,space_cache=v2")) +@end lisp + @node Mapped Devices @section Mapped Devices |