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Let packages decide if they want to install something to /opt or /srv, but there is no reason to have empty directories by default in the read only root filesystem. Signed-off-by: David Oberhollenzer <david.oberhollenzer@tele2.at>
112 lines
4.7 KiB
Markdown
112 lines
4.7 KiB
Markdown
# Pygos Filesystem Layout
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## Sub Hierarchy Merge
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The filesystem hierarchy has received some cleanups and simplifications that
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typical GNU/Linux distributions don't have. First of all, there is no `/usr`
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sub hierarchy split and there is no `/bin` vs `/sbin` split.
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The `/usr` split and the `/bin` vs `/sbin` split are historical artifacts. Of
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course, over the years, people started to pretend that it was a deliberate
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design choice and invented lots of interesting reasoning to justify why this is
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the way to go, despite the original technical reasons being obsolete for a
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really long time now. Please refer to [this thread on the BusyBox mailing list](http://lists.busybox.net/pipermail/busybox/2010-December/074114.html)
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for further discussion.
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The directories typically found in `/usr` have been merged back into the
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filesystem root (`/usr/bin` and `/usr/sbin` to `/bin` and `/usr/lib`
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to `/lib`).
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The `/usr/share` directory containing application data has also been moved to
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the filesystem root (i.e. there is a `/share`).
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Many systems have a `/usr/libexec` directory containing executables not intended
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to be run by people but by programs. This has been moved to `/lib/libexec`.
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The `/usr` directory is still present but now serves its original purpose again.
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Storing user home directories. For instance, the `/root` directory has been
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moved to `/usr/root`.
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Since build tools, source code and headers are typically not installed, there
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is currently no need to think about where to put `/usr/include` or `/usr/src`.
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## Basic Filesystem Mount Points
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A compressed, read only squashfs image is mounted to the root node of the
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virtual filesystem hierarchy.
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The directories `/dev`, `/proc` and `/sys` do not contain any files and are
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used as mount points for devtmpfs, procfs and sysfs respectively.
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The directories `/tmp`, `/run` and `/var` are used as mount points for tmpfs
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mounts. The sub hierarchy in `/var` is constructed during system boot.
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See below on how changes to `/var/lib` are persisted and preserved across
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reboots.
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The directories `/boot` and `/mnt` are used as mount points for temporary
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mounts. The former specifically for mounting the boot medium containing the
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kernel and squasfs image in order to apply updates, the later for other
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temporary mounts.
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## Persistent Configuration Changes
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A directory `/cfg` was added to implement an overlay mount setup. The directory
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`/cfg/preserve` contains the original versions of files built into the
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compressed, read only root filesystem.
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For instance, the original contents of `/etc` are actually stored in
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`/cfg/preserve/etc`.
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The directory `/cfg/overlay` is used as a mount point for a read/write
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partition that is used to override and persist changes to the base
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configuration.
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During system boot, an overlay filesystem is mounted to `/etc` with the lower
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directory set to `/cfg/preserve/etc` and the upper directory set to
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`/cfg/overlay/etc`.
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As a result, the `/etc` directory initially contains files stored in the
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squashfs image, but changes can be made. The altered files are stored on the
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dedicated partition or device mounted to `/cfg/overlay`.
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A similar setup is used for the `/var/lib` and the `/usr` directories. The
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`/var/lib` directory combines `/cfg/preserve/var_lib` with overlays from
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`/cfg/overlay/var_lib`.
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This setup allows for simple management of site local configuration changes,
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simple backups and a simple "factory reset" (i.e. wiping the overlay partition
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or device).
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On systems where this is possible, BTRFS is used for the overlay partition.
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BTRFS sub volumes can be used to make snapshots of the changed configuration
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and if something should break, allows for a simple revert to the last known
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good state.
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Of course, if the overlay setup is not needed, it can be completely disabled in
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which case bind mounts to `/cfg/preserve` are made during system boot instead
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of overlay mounts. The filesystem then becomes completely read only, except for
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the tmpfs mounts which are not persisted across reboots.
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## Multiarch Directories
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Some processors support executing op codes for slightly different architectures.
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For instance, 64 bit x86 processors can be set into 32 bit mode and run
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programs built for 32 bit x86. Such programs then require libraries also built
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for 32 bit x86, creating the necessity for having two different versions of the
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`/lib` directory. Shared libraries may have to be duplicated because some
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32 bit programs need a 32 bit version and 64 bit programs need their version.
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For the time being, it has been decided to not include multiarch support.
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All packages are built for a single target architecture. This simplifies both
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the build process and the final system as well as reducing the memory footprint
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of the system image.
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