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    [MULTI BOOT] How To: Multi-boot from a Single BTRFS Partition - Step by Step

    Better Multi-Booting with BTRFS and Linux

    This is based on:The original document exists on my github

    Difficultly Level: Intermediate


    This tutorial is best for those who have yet to achieve advanced command line skills. If you are strong in the Linux, you can follow oshunluvr's post above and then do Phase 3 Step E below. Please also browse the troubleshooting sections ( 7 & 8 ) at the end.
    DISCLAIMER: This is best done a on a drive which contains no data. If you do it on a drive with data make sure to back up anything important before beginning. Though It did work for me, I do not guarantee that this will work for you.






    This tutorial assumes the following:
    • you are comfortable working in the command line
    • you know how to make a bootable USB
    • you can fix your system when you break it ( probability high if this is your first attempt or you are tired )
    • Your primary OS will be Kubuntu LTS ( whatever the latest version is - 22.04 as of July 14th, 2023 )
    • You can at least muddle through drive partitioning on your own (it will NOT be explained in detail here)
    • You will be using EFI and not MBR (if you don't know what these are, then you will be using EFI by default)

    Subjects you will have learned something about with successful completion:
    • btrfs file system
    • partition management
    • subvolumes
    • root privileges
    • grub boot manager
    • drive mounting
    • file permissions

    What this does NOT cover
    • anything to do with MS Windows or Mac
    • refind boot manager
    • making a separate grub partition (advanced)
    • LVM (Logical Volume Management)
    • Drive encryption

    High Level Overview of Phases
    1. Partition Drive
    2. Install primary OS (recommend ubuntu variant)
    3. Rename subvolumes and configure primary OS
    4. Install Secondary OS (any Linux distro)
    5. Rename subvolumes and configure secondary OS
    6. Boot into and configure primary OS (again)
    7. Troubleshoot fstab
    8. Troubleshooting

    What you will need:
    • A bootable USB (recommend Etcher on Linux, Rufus on Windows) with Kubuntu LTS
    • An empty SSD or hard drive, preferably one that never had Windows installed on it ( Windows leaves Things behind... )

    Common terminal commands and syntax we will use:


    Note: These are not ALL the terminal commands we need. You should already have basic bash literacy before proceeding.
    • Whenever I use the syntax x => y what I mean is "change x to y".
    • " ==> Update grub " means open a terminal and type in the following commands:

    sudo grub-mkconfig
    sudo update-grub
    • Renaming files

    Use the move command with sudo.

    sudo mv oldname newname
    • Making a backup copy

    Use the copy command and add a tilde to the copy name:

    sudo cp filename filename~
    • To inspect the contents of a file:
    cat /filepath/filename

    to add syntax highlighting: ( will need to install )

    batcat /filepath/filename

    Phase 1 - Partition Drive


    -- A very sparse overview

    You will be using Manual partitioning throughout. You will NOT be formatting. Thou shalt not format!

    Set up your drive as follows (suggested)

    I suggest using Gparted on a bootable USB. You will configure
    • GUID Partition Table ( GPT )
    • sda1 ( EFI )
    • sda2 ( swap )

    sda3 (btrfs) will be configured by the Kubuntu installer. So you can leave it for the next phase.
    sda GPT partition table - - -
    sda1 FAT32 100 -550 MiB EFI System Partition EFI
    sda2 swap 1.5x *see note swap swap
    sda3 btrfs remainder / /
    Note: swap drive should be either:
    • 1.5x system RAM
    • 1.5x expected maximum RAM utilization

    How do you know which? Experience mostly. If your computer has 8gb ram, then 12gb is probably safe. But if you have 32gb of RAM, then 48gb is probably overkill, unless you are a power user.

    Phase 2 - Install Primary OS


    -- assumes: Kubuntu LTS xx.04

    DO
    • Install Kubuntu to sda3 ( YES )
    • Choose " / " as mount point. The selection box is placed below and easy to miss.

    DO NOT
    • let the installer automatically configure your drive ( NO )

    Use your Kubuntu live USB to boot up your system. Choose "try Kubuntu".

    Configure your wifi network and bluetooth pointer in the test distro. Your settings will be transferred to the installer and your final installation. It's also easier than doing it in the installer interface.

    At the entrance to the partitioning section, choose "Manual" or "Something else" or the equivalent.

    Choose the btrfs file system and use up the unallocated portion of the drive. Choose "/" as mount point (see Do above). Fill in the all the boxes that need filling and install.

    Phase 3 - Configure primary OS


    -- assumes Kubuntu

    You can do these steps either in terminal (Konsole) or using the file explorer (Dolphin).

    We will here use the Dolphin file explorer and the text editor Kate for most steps. To open Dolphin with a keyboard shortcut hit META + E (META aka - the Windows Key). If you prefer the terminal go ahead and do it that way.

    Note: You will be repeating these steps, excepting D and E with your secondary distro in Phase 5.

    DO NOT DO:
    A - Decide What to call your subvolumes
    B - Modify fstab
    C - Modify grub.cfg
    D - Install Krusader
    E - Modify EFI grub.cfg
    F - Rename btrfs subvolumes
    G - Update grub

    Step A Decide what you will call your subvolumes


    I make it simple by using @ku and @ku_home. I will use those names here, but you can use whatever you want.

    Step B Modify fstab


    Location: /etc/fstab

    fstab is the file where Linux stores the "File System TABle". It's an important file and if you don't know it, you should make it a point to learn about it in the near future.

    Find fstab in your file explorer. Make a backup copy by whatever means you prefer. Right click on the original and select "Open with Kate".
    • Change all instances of @ => @ku
    • Change all instances of @home => @ku_home
    Save the file and exit.

    Step C - Modify grub.cfg
    • Modify grub.cfg ( fun times ahead, you'll be doing this again later but with an identically named file somewhere else)

    Location: @ku/boot/grub/grub.cfg

    Find it with the file explorer Dolphin. Make a backup copy. Right click on the original and select "Open with Kate". It's a long file. Take a few minutes to get familiar with the various sections. It's okay if you don't understand it. Just note where the sections for starters.

    The part you will need to be most familiar with is the section "10_linux". This is where all the auto-generated grub menu options are kept. We are going to use Kate's Find & Replace feature. Weird thing: Kate has TWO similar looking F&R features.

    DO:
    • Go to the BOTTOM of the window and choose "Search and Replace" ( YES )

    DO NOT:
    • Edit => Replace ( NO )
    • CTRL+ F ( NO )

    They lack the features we need.

    In the "Find" bar enter @ and click "Search" You'll see a bunch of lines that look like:


    linux /@/boot/vmlinuz-5.19.0-46-generic root=UUID=73ffa900-dca2-47f2-9e0b-f8c1942ef918 ro rootflags=subvol=@ quiet splash $vt_handoff


    Note that there is an @ at the beginning and subvol=@ at the end. These will be handled a little differently.

    We need to change all the @ to @ku. So enter @ku in the "Replace" field and click "Replace Checked" The lines should look like this:


    linux /@ku/boot/vmlinuz-5.19.0-46-generic root=UUID=73ffa900-dca2-47f2-9e0b-f8c1942ef918 ro rootflags=subvol=@ku quiet splash $vt_handoff


    We are not done. The world will end in dragonfire if we don't add a forward slash to all the subvol fields. So:
    • In the "Find" bar enter subvol=
    • In the "Replace" bar enter subvol=/ and click Replace

    It should look like:


    linux /@ku/boot/vmlinuz-5.19.0-46-generic root=UUID=73ffa900-dca2-47f2-9e0b-f8c1942ef918 ro rootflags=subvol=/@ku quiet splash $vt_handoff


    Manually look over all the changed lines and make sure everything looks as it should.

    Save and exit.

    Step 3D Install Krusader


    (not for Phase 5)

    In the next step we will use Krusader file explorer. It is not installed by default. So open the package manager Muon, click "Check for Updates", then install Krusader.

    Step 3E - Modify grub.cfg ( told you )


    Location: /boot/efi/EFI/ubuntu/grub.cfg

    (not for Phase 5)

    This step is to modify the grub $prefix variable in your main OS. If you don't do this, you will get stuck at the grub prompt, which will bring about a zombie apocalypse. Also, this step doesn't work the same for every distro (Kali for example).

    Open Krusader and click through it's first time start up routine. Accept everything then go to Tools >> Start Root Mode Krusader and repeat the start up routine.

    Now navigate to /boot/efi/EFI/ubuntu/ and select grub.cfg

    At the bottom of the window click f4 Edit

    The second line should read: set prefix=($root)'/@/boot/grub'

    Change @ => @ku and save the file.

    Close Krusader.

    Congratulations! Your computer is now BROKEN!!! It won't start!!! MWAHAHA!!! But we're going to fix it in the next step because I'm a pretty easy-going super-villain.

    Step F - Rename btrfs subvolumes


    Boot into the computer using the same Kubuntu USB stick you used to install. Choose the "Try" version.

    Open Dolphin, find your main drive and use the right click menu to open a terminal there.

    Find @ and @home with your terminal. Then execute the following commands:
    • sudo mv @ @ku
    • sudo mv @home @ku_home

    Now it's fixed. Reboot and remove the USB stick.

    Step G - Update Grub


    Open a terminal ==> Update grub.

    Phase 4 - Install Secondary OS


    I will only give some DOs and DO NOTs here as each distro is different.

    DO:
    • Install to the same btrfs partition as before. ( YES )

    DO NOT:
    • Change your drive partitions ( NO )
    • Choose automatic anything ( NO )
    Phase 5 - Configure Secondary OS


    Overview of Phase 5:

    Firstly, decide what you are going to call your new subvolumes. I installed Kali on my system so I chose @kali. You might use @mint or @manjaro, etc.

    These steps are very similar to what you did previously so I will only detail the parts that are different. For the most part you will do everything the same way. This can be done from within the installed version of Kubuntu (intermediate) which I do not cover here or from the Kubuntu Live USB (easy).

    After we are finished Kubuntu will "own" grub and boot the computer. ( look up "boot up vs start up" )

    Important Notes:
    1. In Phase 5 Steps C and D are reversed from their order in Phase 3
    2. To edit /boot/grub/grub.cfg in your secondary distro you will use Root Mode Crusader's F4 Edit. It has a similar Find & Replace to Kate. Use CTRL+R to open it.
    3. The path to find the subvolumes on the Kubuntu Live USB is:

    Location: /media/kubuntu/[UUID]/

    DO NOT:
    • reconfigure grub $prefix. ( NO )
    • Do Step E ( NO )

    Repeat Phase 3 parts A through G for the new distro. Do NOT do Step E. When are done with that come back to this point.

    The steps for the secondary distro are:

    A - Decide What to call your subvolumes
    B - Modify fstab
    C - Install Krusader
    D - Modify grub.cfg
    E - Modify EFI grub.cfg
    F - Rename btrfs subvolumes
    G - Update grub
    H - Copy fstab
    I - Copy a block of code from grub.cfg
    J - Check if grub symlinks are already configured
    K - Configure grub symlinks

    For the next two steps we are going to copy some data from your secondary OS to your main OS. You will need a way to get it over there. I used a USB stick as file-transfer media.

    Step 5H - Copy fstab


    Start by saving a copy of fstab to your file-transfer media because we may need a piece of information in it at the very end of this long process.

    Location: /etc/fstab

    Step 5I Copy a block of code from grub.cfg


    Now we are going to copy some code out of the secondary OS grub.cfg.

    Location: /boot/grub/grub.cfg

    Find the section ### BEGIN /etc/grub.d/10_linux ###

    copy the first menu entry from the word "menuentry" to the first closing curly brace. It looks something like this:


    menuentry 'Kali GNU/Linux' --class kali --class gnu-linux --class gnu --class os $menuentry_id_option 'gnulinux-simple-73f6525c-0f9c-4a23-a91b-d1b46f5079c8' {
    load_video
    insmod gzio
    if [ x$grub_platform = xxen ]; then insmod xzio; insmod lzopio; fi
    insmod part_gpt
    insmod btrfs
    set root='hd0,gpt3'
    if [ x$feature_platform_search_hint = xy ]; then
    search --no-floppy --fs-uuid --set=root --hint-bios=hd0,gpt3 --hint-efi=hd0,gpt3 --hint-baremetal=ahci0,gpt3 73f6525c-0f9c-4a23-a91b-d1b46f5079c8
    else
    search --no-floppy --fs-uuid --set=root 73f6525c-0f9c-4a23-a91b-d1b46f5079c8
    fi
    echo 'Loading Linux 6.1.0-kali9-amd64 ...'
    linux /@/boot/vmlinuz-6.1.0-kali9-amd64 root=UUID=73f6525c-0f9c-4a23-a91b-d1b46f5079c8 ro rootflags=subvol=@ quiet splash
    echo 'Loading initial ramdisk ...'
    initrd /@/boot/initrd.img-6.1.0-kali9-amd64
    }

    Extract that by whatever means you like to your main distro. ( I pasted it into a text file and moved it via usb stick) and make a second copy of your extracted code in case you break it.

    Just a reminder: make sure you have a copy of your secondary distro fstab file before you log out of it.

    Step 5J Setting up grub symlinks


    Symlink is short for "symbolic link". That's Linux-speak for a shortcut.

    The first thing to do is to see if your new distro uses symbolic links when booting grub. Open up a terminal and go to /boot

    Location: /boot

    Run the command:

    ll (double letter 'l' - the one between 'k' and 'm')

    We are looking for four lines with arrow thingies like this:

    lrwxrwxrwx 1 root root 25 Jun 28 17:59 vmlinuz -> vmlinuz-5.19.0-46-generic


    You want to see
    • initrd.img -> ...
    • initrd.img.old -> ...
    • vmlinuz -> ...
    • vmlinuz.old -> ...

    If those are present then you can skip the rest of this section and move on to Phase 6.

    If they are NOT present then you haven't got the symlinks and you need to set them up. This is easy.

    In your terminal we need to navigate to your /etc directory and inspect the kernel-img.conf file.

    Location: /etc/kernel-img.conf

    cat it out. It should look something like this:


    # Kernel Image management overrides
    # See kernel-img.conf(5) for details
    do_symlinks = no
    do_bootloader = no


    If do_symlinks is set to no, then open the file with kate and change that no to yes: do_symlinks = yes

    Now we add the symbolic links.

    The REALLY easy way ( which may not work ) is to update your system. If one of the updates is a new kernel version, then the link ought to be created automatically.

    So update your system and recheck the /boot folder for those symlinks. If they weren't created then no big deal. You just need to do it manually. This is easy.

    Step 5K - Creating the symlinks manually


    You need to make FOUR of them. Use your terminal to navigate to the /boot folder

    Location: /boot

    We make the symlinks with the ln command, with the -s switch. It takes two arguments, the first is the name of the file you want to link, and the second is the name you want to give the link.
    sudo ln -s filename linkname

    If it helps you retain the info better you can also type it as:

    sudo ln --symbolic filename linkname

    We will make links to the newest kernel files for booting and the second newest as fallback because sometimes even Linux breaks.

    sudo ln -s kernel-you-want-as-default vmlinuz

    sudo ln -s kernel-you-want-as-fallback vmlinuz.old

    sudo ln -s initrd-image-you-want-as-default initrd.img

    sudo ln -s initrd-image-you-want-as-fallback initrd.img.old

    Verify that the links are as they should be. If everything looks correct reboot into that same distro. If it starts up you did it right and can move on to Phase 6. You don't need to update grub this time.

    Phase 6 - Configure Primary OS (again)


    Reboot into Kubuntu

    We need to make the following changes to two of the last four lines of the extracted code. Make sure you have a backup copy before you start.

    Firstly, note the "echo" commands. They print messages to the grub bootup screen. Feel free to make them say whatever you find useful or amusing. You can also safely delete them. The two lines we need to change are the "linux" and "initrd" command lines.

    Change the three "@" subvolume names down at the bottom to whatever you intend to name your new distro @ subvolume.

    Now we are going to change the file names being used. If we don't do this, our shiny new dual boot system will break the first time the Linux kernel is updated and we may not remember how to fix it. So let's prevent it.

    In my sample text the file names are:
    • vmlinuz-6.1.0-kali9-amd64
    • initrd.img-6.1.0-kali9-amd64

    To get this step right you may have do it a few times because not all distros handle this part the same way. So there may be some trial and error.

    If you are in an Ubuntu variant you need to change the file names to:
    • vmlinuz
    • initrd.img

    You can optionally remove "quiet splash" in the linux command which will turn of the splash screen and show you the helpful system start up messages. Being able to see those messages may make your life easier and is recommended.

    Double check that everything is correct ( see below for example ) and paste it into the file '40_custom' in your main distro.

    Location: /etc/grub.d/40_custom

    Example of modified grub code: ( only the last four lines are different )

    menuentry 'Kali GNU/Linux' --class kali --class gnu-linux --class gnu --class os $menuentry_id_option 'gnulinux-simple-73f6525c-0f9c-4a23-a91b-d1b46f5079c8' {
    load_video
    insmod gzio
    if [ x$grub_platform = xxen ]; then insmod xzio; insmod lzopio; fi
    insmod part_gpt
    insmod btrfs
    set root='hd0,gpt3'
    if [ x$feature_platform_search_hint = xy ]; then
    search --no-floppy --fs-uuid --set=root --hint-bios=hd0,gpt3 --hint-efi=hd0,gpt3 --hint-baremetal=ahci0,gpt3 73f6525c-0f9c-4a23-a91b-d1b46f5079c8
    else
    search --no-floppy --fs-uuid --set=root 73f6525c-0f9c-4a23-a91b-d1b46f5079c8
    fi
    echo 'I can make it say whatever I want!!!'
    linux /@kali/boot/vmlinuz* root=UUID=73f6525c-0f9c-4a23-a91b-d1b46f5079c8 ro rootflags=subvol=/@kali
    echo 'MWAHAHA!!!!'
    initrd /@kali/boot/initrd.img*
    }


    ==> Update grub.

    Reboot and make sure your secondary OS shows up in the grub menu.

    If it's there, select it and boot it.

    If just sends you back to the grub menu OR it's not there at all:
    • check your 40_custom code syntax, make corrections, check all the syntax, { braces }, etc.

    ==> update grub.

    If it starts to boot then just hangs with a message of "kernel panic" then it may be how you named your kernel file in 40_custom.

    Make sure your symlinks are turned on per Phase 5G and that the symlinks are in /boot.

    If it STILL won't boot, you can try a hacky ill-advised method that is at best a temporary fix by taking advantage of globbing ( fancy text manipulation magic ). by inserting a wildcard character at then end of the symlink name in grub.cfg, which looks like
    • vmlinuz*
    • initrd.img*

    Or you can use the actual kernel file name, which will only work until the next update.

    Remember, after changing your grub files:

    ==> Update grub.

    Phase 7 - Troubleshoot fstab


    The last thing to do is to see if the last distro you installed hijacked your swap drive. It's okay if it did. It's easy to fix.

    You may have seen a message with a long countdown while starting your main OS to the effect of startup process /dev/disk/by-uuid/someUUID

    That's an indication of a hijacked swap drive.

    Now we need that copy of fstab from your last installed distro. Compare the swap drive UUID in that to the one in Kubuntu

    Location: /etc/fstab

    If they are not the same, and they probably won't be, you will need to modify Kubuntu's fstab. Here's how:
    • Open it with Kate
    • Duplicate the swap drive line and comment that line out ( add a # mark to the front of the line )
    • Change the UUID of the swap drive to the one from that saved copy of fstab from the other OS
    • Save the file.
    • In terminal run the command
    $: mount -a

    You are done.


    Phase 8 Troubleshooting


    If you find yourself stuck at a grub prompt after all this, the problem lies in a text file or a subvolume name. You can fix it by booting into Linux Live USB and going over your work.

    Once you have done this a few times and understand where everything goes, you can actually do nearly all of it in Krusader much more quickly than using the method I outlined above. However be aware that Krusader can seriously break your system should you make a mistake or just hit the wrong key. Use Krusader with extreme caution.

    Problem: Grub error that says something to the effect of: Cannot open access to console, the root account is locked

    Possible Solution: Check your all of your "subvol=" fields, including the one in 40_custom to make sure it has the forward slash " / " .

    Problem: Grub kernel panic

    Possible Solution: Your symlinks may not be set up properly. Double check your work in 5J and 5K.

    problem ruh-roh! You scewed up somewhere and can't find your error and you just want to start over...

    Possible Solution: You can just delete the subvolumes of the OS in question (not your main OS though).

    You can try using the btrfs command to delete them. But if like me you get ERROR: Could not statfs: No such file or directory.

    Then boot up your Linux Live, find the subvolumes in terminal and remove them with rm

    $ sudo rm -rfv @subvolume_name​
    Last edited by TwoFistedJustice; Aug 10, 2023, 06:59 PM. Reason: Adding missing strike-through

    #2
    Incredible... as someone who has being doing a lot of this for a few years, I should go through it carefully. But, that will likely be the weekend of the 5th and 6th, as I'm out of town this weekend.
    Regards, John Little

    Comment


      #3
      Okay, I'm playing along at home on a fresh 1TB M.2 nvme ssd and will see what issues I have problems with. First is what about the subvolumes that Timeshift, Snapper, or DIY snapshots? I'm not sure that Timeshift can deal with any renamed subvolume. Snapper can be configured and so can DIY.
      Code:
      ID 256 gen 197 top level 5 path @
      ID 257 gen 197 top level 5 path @home
      ID 258 gen 155 top level 5 path timeshift-btrfs/snapshots/2023-07-30_08-30-04/@
      ID 259 gen 156 top level 5 path timeshift-btrfs/snapshots/2023-07-30_08-30-04/@home
      ​EDIT: I tested after getting Kubuntu configured with @ku and @ku_home. Timeshift fails to run. I did create a @snapshots subvolume and did some manual snapshots of @ku and @ku_home
      Code:
      ID 256 gen 301 top level 5 path @ku
      ID 257 gen 302 top level 5 path @ku_home
      ID 258 gen 155 top level 5 path timeshift-btrfs/snapshots/2023-07-30_08-3
      0-04/@
      ID 259 gen 156 top level 5 path timeshift-btrfs/snapshots/2023-07-30_08-3
      0-04/@home
      ID 260 gen 292 top level 5 path @snapshots
      ID 261 gen 288 top level 260 path @snapshots/root/@ku-20230730-1009
      ID 262 gen 289 top level 260 path @snapshots/home/@ku_home-20230730-1009
      Last edited by jfabernathy; Jul 30, 2023, 08:19 AM.

      Comment


        #4
        More questions and feedback. TL-DR I have Kubuntu 23.04, Endeavour OS (arch) Plasma, and Debian 12 Plasma all booting from the same grub menu.

        On Phase 5 of my 2nd distro (EOS), I made the mistake of rebooting after updating grub "Step G". So I had to do some fancy editing via the bootable Kubuntu Live image. Any time I rebooted it went to the new OS and not to be Kubuntu grub which had all the distros in it's grub.

        I always ended up using my F11 key to force the UEFI boot menu and choose Ubuntu. Once everything was configured I did a
        Code:
        sudo grub-install /dev/nvme0n1
        sudo update-grub
        Once that was done, I can default boot into Kubuntu, but have the choice of also EOS and Debian.

        Somehow I ended up with the background of the grub menu not being there anymore. So it's just white text on a black background. Any easy way to get back something better looking?

        What about when one of the Distros updates it's kernel. What has to be done??
        Last edited by jfabernathy; Jul 30, 2023, 01:29 PM.

        Comment


          #5
          Originally posted by jfabernathy View Post
          More questions and feedback. TL-DR I have Kubuntu 23.04, Endeavour OS (arch) Plasma, and Debian 12 Plasma all booting from the same grub menu.

          On Phase 5 of my 2nd distro (EOS), I made the mistake of rebooting after updating grub "Step G". So I had to do some fancy editing via the bootable Kubuntu Live image. Any time I rebooted it went to the new OS and not to be Kubuntu grub which had all the distros in it's grub.

          I always ended up using my F11 key to force the UEFI boot menu and choose Ubuntu. Once everything was configured I did a
          Code:
          sudo grub-install /dev/nvme0n1
          sudo update-grub
          Once that was done, I can default boot into Kubuntu, but have the choice of also EOS and Debian.

          Somehow I ended up with the background of the grub menu not being there anymore. So it's just white text on a black background. Any easy way to get back something better looking?

          What about when one of the Distros updates it's kernel. What has to be done??
          On my system I went into BIOS ( UEFI ) Boot Priority to select which distro boots by default. I didn't put that in because it might not work that way on other systems and there are probably other ways that I don't know about yet via grub itself. Maybe one of the Ascendant Ones knows the answer.

          The white text on a black background is what I get by default. I was able to change the colors in grub.cfg. But I didn't find it worth the effort.

          As far as kernel updates, that's what the symlinks ( 5J & 5K ) are for. Theoretically a kernel update should include automatic symlink updates as well. Theoretically.

          Comment


            #6
            FYI. I started over after I think I know what I'm doing and I decided to start with Debian 12 Plasma as my first distro. Mainly because of no snapd and it is easier to install with custom subvolumes. I did the expert install using the standard net-install iso and when I escaped out of the installer to the console between Partition the disk and the base install, I was able to redo all the subvolumes.

            When you escape out to the console you only have one subvolume called @rootfs. Normally you would rename to @ and add @home. Mount with the desired options, edit the fstab and go back to the installer to continue the installation.

            But I decided to mv @rootfs to @deb and create @deb_home. mounted and edited fstab to match and then installed the software. Worked great and now I could skip steps Phase 3 A-G.

            I did check everything anyway and it was as expected with the exception of the /boot/grub/grub.cfg. Debian had populated the subvol=@deb and not subvol=/@deb. I changed that to subvol=/@deb to match the guide. It made no difference for me the next time I booted.

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              #7
              Originally posted by jfabernathy View Post
              ... Debian had populated the subvol=@deb and not subvol=/@deb. I changed that to subvol=/@deb to match the guide.
              IIUC that only makes a difference if the "default subvolume" has been changed. One can change it with btrfs subvolume set-default, but Ubuntu doesn't support it (stuff breaks, I can confirm), and I suspect using set-default would be a bad idea with debian. SUSE uses it to boot old snapshots with snapper, I think.
              Regards, John Little

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