How to create a custom Ubuntu live from scratch

  • build system - the computer environment running the build scripts that generate the ISO.
  • live system - the computer environment that runs from the live OS, generated by a build system. This may also be referred to as the chroot environment.
  • target system - the computer environment that runs after installation has completed from a live system.

Prerequisites (GNU/Linux Debian/Ubuntu)

Install packages we need in the build system required by our scripts.

sudo apt-get install \
    binutils \
    debootstrap \
    squashfs-tools \
    xorriso \
    grub-pc-bin \
    grub-efi-amd64-bin \
    mtools
mkdir $HOME/live-ubuntu-from-scratch

Bootstrap and Configure Ubuntu

debootstrap is a program for generating OS images. We install it into our build system to begin generating our ISO.

  • Checkout bootstrap

    sudo debootstrap \
       --arch=amd64 \
       --variant=minbase \
       focal \
       $HOME/live-ubuntu-from-scratch/chroot \
       http://us.archive.ubuntu.com/ubuntu/

    debootstrap is used to create a Debian base system from scratch, without requiring the availability of dpkg or apt. It does this by downloading .deb files from a mirror site, and carefully unpacking them into a directory which can eventually be chrooted into.

  • Configure external mount points

    sudo mount --bind /dev $HOME/live-ubuntu-from-scratch/chroot/dev
    
    sudo mount --bind /run $HOME/live-ubuntu-from-scratch/chroot/run

    As we will be updating and installing packages (grub among them), these mount points are necessary inside the chroot environment, so we are able to finish the installation without errors.

Define chroot environment

A chroot on Unix operating systems is an operation that changes the apparent root directory for the current running process and its children. A program that is run in such a modified environment cannot name (and therefore normally cannot access) files outside the designated directory tree. The term "chroot" may refer to the chroot system call or the chroot wrapper program. The modified environment is called a chroot jail.

Reference: https://en.wikipedia.org/wiki/Chroot

From this point we will be configuring the live system.

  1. Access chroot environment

    sudo chroot $HOME/live-ubuntu-from-scratch/chroot
  2. Configure mount points, home and locale

    mount none -t proc /proc
    
    mount none -t sysfs /sys
    
    mount none -t devpts /dev/pts
    
    export HOME=/root
    
    export LC_ALL=C

    These mount points are necessary inside the chroot environment, so we are able to finish the installation without errors.

  3. Set a custom hostname

    echo "ubuntu-fs-live" > /etc/hostname
  4. Configure apt sources.list

    cat <<EOF > /etc/apt/sources.list
    deb http://us.archive.ubuntu.com/ubuntu/ focal main restricted universe multiverse
    deb-src http://us.archive.ubuntu.com/ubuntu/ focal main restricted universe multiverse
    
    deb http://us.archive.ubuntu.com/ubuntu/ focal-security main restricted universe multiverse
    deb-src http://us.archive.ubuntu.com/ubuntu/ focal-security main restricted universe multiverse
    
    deb http://us.archive.ubuntu.com/ubuntu/ focal-updates main restricted universe multiverse
    deb-src http://us.archive.ubuntu.com/ubuntu/ focal-updates main restricted universe multiverse
    EOF
  5. Update indexes packages

    apt-get update
  6. Install systemd

    apt-get install -y libterm-readline-gnu-perl systemd-sysv

    systemd is a system and service manager for Linux. It provides aggressive parallelization capabilities, uses socket and D-Bus activation for starting services, offers on-demand starting of daemons, keeps track of processes using Linux control groups, maintains mount and automount points and implements an elaborate transactional dependency-based service control logic.

  7. Configure machine-id and divert

    dbus-uuidgen > /etc/machine-id
    
    ln -fs /etc/machine-id /var/lib/dbus/machine-id

    The /etc/machine-id file contains the unique machine ID of the local system that is set during installation or boot. The machine ID is a single newline-terminated, hexadecimal, 32-character, lowercase ID. When decoded from hexadecimal, this corresponds to a 16-byte/128-bit value. This ID may not be all zeros.

    dpkg-divert --local --rename --add /sbin/initctl
    
    ln -s /bin/true /sbin/initctl

    dpkg-divert is the utility used to set up and update the list of diversions.

  8. Upgrade packages

    apt-get -y upgrade
  9. Install packages needed for Live System

    apt-get install -y \
        sudo \
        ubuntu-standard \
        casper \
        lupin-casper \
        discover \
        laptop-detect \
        os-prober \
        network-manager \
        resolvconf \
        net-tools \
        wireless-tools \
        wpagui \
        locales \
        grub-common \
        grub-gfxpayload-lists \
        grub-pc \
        grub-pc-bin \
        grub2-common
    apt-get install -y --no-install-recommends linux-generic
  10. Graphical installer

    apt-get install -y \
       ubiquity \
       ubiquity-casper \
       ubiquity-frontend-gtk \
       ubiquity-slideshow-ubuntu \
       ubiquity-ubuntu-artwork

    The next steps will appear, as a result of the packages that will be installed from the previous step, this will happen without anything having to be informed or executed.

    1. Configure keyboard
      1. Install window manager

        apt-get install -y \
            plymouth-theme-ubuntu-logo \
            ubuntu-gnome-desktop \
            ubuntu-gnome-wallpapers
      2. Install useful applications

        apt-get install -y \
            clamav-daemon \
            terminator \
            apt-transport-https \
            curl \
            vim \
            nano \
            less
      3. Install Visual Studio Code (optional)

      4. Download and install the key

        curl https://packages.microsoft.com/keys/microsoft.asc | gpg --dearmor > microsoft.gpg
        
        install -o root -g root -m 644 microsoft.gpg /etc/apt/trusted.gpg.d/
        
        echo "deb [arch=amd64] https://packages.microsoft.com/repos/vscode stable main" > /etc/apt/sources.list.d/vscode.list
        
        rm microsoft.gpg
      5. Then update the package cache and install the package using

        apt-get update
        
        apt-get install -y code
      6. Install Google Chrome (optional)

      7. Download and install the key

        wget -q -O - https://dl-ssl.google.com/linux/linux_signing_key.pub | sudo apt-key add -
        
        echo "deb http://dl.google.com/linux/chrome/deb/ stable main" > /etc/apt/sources.list.d/google-chrome.list
      8. Then update the package cache and install the package using

        apt-get update
        
        apt-get install google-chrome-stable
      9. Install Java JDK 8 (optional)

        apt-get install -y \
            openjdk-8-jdk \
            openjdk-8-jre
      10. Remove unused applications (optional)

        apt-get purge -y \
            transmission-gtk \
            transmission-common \
            gnome-mahjongg \
            gnome-mines \
            gnome-sudoku \
            aisleriot \
            hitori
      11. Remove unused packages

        apt-get autoremove -y
      12. Reconfigure packages

      13. Generate locales

        dpkg-reconfigure locales


        1. Configure network-manager

          cat <<EOF > /etc/NetworkManager/NetworkManager.conf
          [main]
          rc-manager=resolvconf
          plugins=ifupdown,keyfile
          dns=dnsmasq
          
          [ifupdown]
          managed=false
          EOF
        2. Reconfigure network-manager

          dpkg-reconfigure network-manager
        3. Cleanup the chroot environment

        4. If you installed software, be sure to run

          truncate -s 0 /etc/machine-id
        5. Remove the diversion

          rm /sbin/initctl
          
          dpkg-divert --rename --remove /sbin/initctl
        6. Clean up

          apt-get clean
          
          rm -rf /tmp/* ~/.bash_history
          
          umount /proc
          
          umount /sys
          
          umount /dev/pts
          
          export HISTSIZE=0
          
          exit

        Unbind mount points

        sudo umount $HOME/live-ubuntu-from-scratch/chroot/dev
        
        sudo umount $HOME/live-ubuntu-from-scratch/chroot/run

        Create the CD image directory and populate it

        We are now back in our build environment after setting up our live system and will continue creating files necessary to generate the ISO.

        1. Access build directory

          cd $HOME/live-ubuntu-from-scratch
        2. Create directories

          mkdir -p image/{casper,isolinux,install}
        3. Copy kernel images

          sudo cp chroot/boot/vmlinuz-**-**-generic image/casper/vmlinuz
          
          sudo cp chroot/boot/initrd.img-**-**-generic image/casper/initrd
        4. Copy memtest86+ binary (BIOS)

          sudo cp chroot/boot/memtest86+.bin image/install/memtest86+
        5. Download and extract memtest86 binary (UEFI)

          wget --progress=dot https://www.memtest86.com/downloads/memtest86-usb.zip -O image/install/memtest86-usb.zip
          
          unzip -p image/install/memtest86-usb.zip memtest86-usb.img > image/install/memtest86
          
          rm -f image/install/memtest86-usb.zip

        GRUB menu configuration

        1. Access build directory

          cd $HOME/live-ubuntu-from-scratch
        2. Create base point access file for grub

          touch image/ubuntu
        3. Create image/isolinux/grub.cfg

          cat <<EOF > image/isolinux/grub.cfg
          
          search --set=root --file /ubuntu
          
          insmod all_video
          
          set default="0"
          set timeout=30
          
          menuentry "Try Ubuntu FS without installing" {
             linux /casper/vmlinuz boot=casper nopersistent toram quiet splash ---
             initrd /casper/initrd
          }
          
          menuentry "Install Ubuntu FS" {
             linux /casper/vmlinuz boot=casper only-ubiquity quiet splash ---
             initrd /casper/initrd
          }
          
          menuentry "Check disc for defects" {
             linux /casper/vmlinuz boot=casper integrity-check quiet splash ---
             initrd /casper/initrd
          }
          
          menuentry "Test memory Memtest86+ (BIOS)" {
             linux16 /install/memtest86+
          }
          
          menuentry "Test memory Memtest86 (UEFI, long load time)" {
             insmod part_gpt
             insmod search_fs_uuid
             insmod chain
             loopback loop /install/memtest86
             chainloader (loop,gpt1)/efi/boot/BOOTX64.efi
          }
          EOF

        Create manifest

        Next we create a file filesystem.manifest to specify each package and it's version that is installed on the live system. We create another file filesystem.manifest-desktop which specifies which files will be installed on the target system. Once the Ubiquity installer completes, it will remove packages specified in filesystem.manifest that are not listed in filesystem.manifest-desktop.

        1. Access build directory

          cd $HOME/live-ubuntu-from-scratch
        2. Generate manifest

          sudo chroot chroot dpkg-query -W --showformat='${Package} ${Version}\n' | sudo tee image/casper/filesystem.manifest
          
          sudo cp -v image/casper/filesystem.manifest image/casper/filesystem.manifest-desktop
          
          sudo sed -i '/ubiquity/d' image/casper/filesystem.manifest-desktop
          
          sudo sed -i '/casper/d' image/casper/filesystem.manifest-desktop
          
          sudo sed -i '/discover/d' image/casper/filesystem.manifest-desktop
          
          sudo sed -i '/laptop-detect/d' image/casper/filesystem.manifest-desktop
          
          sudo sed -i '/os-prober/d' image/casper/filesystem.manifest-desktop

        Compress the chroot

        After everything has been installed and preconfigured in the chrooted environment, we need to generate an image of everything that was done by following the next steps in the build environment.

        1. Access build directory

          cd $HOME/live-ubuntu-from-scratch
        2. Create squashfs

          sudo mksquashfs chroot image/casper/filesystem.squashfs

          Squashfs is a highly compressed read-only filesystem for Linux. It uses zlib compression to compress both files, inodes and directories. Inodes in the system are very small and all blocks are packed to minimize data overhead. Block sizes greater than 4K are supported up to a maximum of 64K. Squashfs is intended for general read-only filesystem use, for archival use (i.e. in cases where a .tar.gz file may be used), and in constrained block device/memory systems (e.g. embedded systems) where low overhead is needed.

        3. Write the filesystem.size

          printf $(sudo du -sx --block-size=1 chroot | cut -f1) > image/casper/filesystem.size

        Create diskdefines

        README file often found on Linux LiveCD installer discs, such as an Ubuntu Linux installation CD; typically named “README.diskdefines” and may be referenced during installation.

        1. Access build directory

          cd $HOME/live-ubuntu-from-scratch
        2. Create file image/README.diskdefines

          cat <<EOF > image/README.diskdefines
          #define DISKNAME  Ubuntu from scratch
          #define TYPE  binary
          #define TYPEbinary  1
          #define ARCH  amd64
          #define ARCHamd64  1
          #define DISKNUM  1
          #define DISKNUM1  1
          #define TOTALNUM  0
          #define TOTALNUM0  1
          EOF

        Create ISO Image for a LiveCD (BIOS + UEFI)

        1. Access image directory

          cd $HOME/live-ubuntu-from-scratch/image
        2. Create a grub UEFI image

          grub-mkstandalone \
             --format=x86_64-efi \
             --output=isolinux/bootx64.efi \
             --locales="" \
             --fonts="" \
             "boot/grub/grub.cfg=isolinux/grub.cfg"
        3. Create a FAT16 UEFI boot disk image containing the EFI bootloader

          (
             cd isolinux && \
             dd if=/dev/zero of=efiboot.img bs=1M count=10 && \
             sudo mkfs.vfat efiboot.img && \
             LC_CTYPE=C mmd -i efiboot.img efi efi/boot && \
             LC_CTYPE=C mcopy -i efiboot.img ./bootx64.efi ::efi/boot/
          )
        4. Create a grub BIOS image

          grub-mkstandalone \
             --format=i386-pc \
             --output=isolinux/core.img \
             --install-modules="linux16 linux normal iso9660 biosdisk memdisk search tar ls" \
             --modules="linux16 linux normal iso9660 biosdisk search" \
             --locales="" \
             --fonts="" \
             "boot/grub/grub.cfg=isolinux/grub.cfg"
        5. Combine a bootable Grub cdboot.img

          cat /usr/lib/grub/i386-pc/cdboot.img isolinux/core.img > isolinux/bios.img
        6. Generate md5sum.txt

          sudo /bin/bash -c "(find . -type f -print0 | xargs -0 md5sum | grep -v -e 'md5sum.txt' -e 'bios.img' -e 'efiboot.img' > md5sum.txt)"
        7. Create iso from the image directory using the command-line

          sudo xorriso \
             -as mkisofs \
             -iso-level 3 \
             -full-iso9660-filenames \
             -volid "Ubuntu from scratch" \
             -output "../ubuntu-from-scratch.iso" \
             -eltorito-boot boot/grub/bios.img \
                -no-emul-boot \
                -boot-load-size 4 \
                -boot-info-table \
                --eltorito-catalog boot/grub/boot.cat \
                --grub2-boot-info \
                --grub2-mbr /usr/lib/grub/i386-pc/boot_hybrid.img \
             -eltorito-alt-boot \
                -e EFI/efiboot.img \
                -no-emul-boot \
             -append_partition 2 0xef isolinux/efiboot.img \
             -m "isolinux/efiboot.img" \
             -m "isolinux/bios.img" \
             -graft-points \
                "/EFI/efiboot.img=isolinux/efiboot.img" \
                "/boot/grub/bios.img=isolinux/bios.img" \
                "."

        Alternative way, if previous one fails, create an Hybrid ISO

        1. Create a ISOLINUX (syslinux) boot menu

          cat <<EOF> isolinux/isolinux.cfg
          UI vesamenu.c32
          
          MENU TITLE Boot Menu
          DEFAULT linux
          TIMEOUT 600
          MENU RESOLUTION 640 480
          MENU COLOR border       30;44   #40ffffff #a0000000 std
          MENU COLOR title        1;36;44 #9033ccff #a0000000 std
          MENU COLOR sel          7;37;40 #e0ffffff #20ffffff all
          MENU COLOR unsel        37;44   #50ffffff #a0000000 std
          MENU COLOR help         37;40   #c0ffffff #a0000000 std
          MENU COLOR timeout_msg  37;40   #80ffffff #00000000 std
          MENU COLOR timeout      1;37;40 #c0ffffff #00000000 std
          MENU COLOR msg07        37;40   #90ffffff #a0000000 std
          MENU COLOR tabmsg       31;40   #30ffffff #00000000 std
          
          LABEL linux
           MENU LABEL Try Ubuntu FS
           MENU DEFAULT
           KERNEL /casper/vmlinuz
           APPEND initrd=/casper/initrd boot=casper
          
          LABEL linux
           MENU LABEL Try Ubuntu FS (nomodeset)
           MENU DEFAULT
           KERNEL /casper/vmlinuz
           APPEND initrd=/casper/initrd boot=casper nomodeset
          EOF
        2. Include syslinux bios modules

          apt install -y syslinux-common && \
          cp /usr/lib/ISOLINUX/isolinux.bin isolinux/ && \
          cp /usr/lib/syslinux/modules/bios/* isolinux/
        3. Create iso from the image directory

          sudo xorriso \
             -as mkisofs \
             -iso-level 3 \
             -full-iso9660-filenames \
             -volid "Ubuntu from scratch" \
             -output "../ubuntu-from-scratch.iso" \
           -isohybrid-mbr /usr/lib/ISOLINUX/isohdpfx.bin \
           -eltorito-boot \
               isolinux/isolinux.bin \
               -no-emul-boot \
               -boot-load-size 4 \
               -boot-info-table \
               --eltorito-catalog isolinux/isolinux.cat \
           -eltorito-alt-boot \
               -e /EFI/boot/efiboot.img \
               -no-emul-boot \
               -isohybrid-gpt-basdat \
           -append_partition 2 0xef EFI/boot/efiboot.img \
             "$HOME/live-ubuntu-from-scratch/image"

        Make a bootable USB image

        It is simple and easy, using "dd"

        sudo dd if=ubuntu-from-scratch.iso of=<device> status=progress oflag=sync

        Summary

        This completes the process of creating a live Ubuntu installer from scratch. The generated ISO may be tested in a virtual machine such as VirtualBox or written to media and booted from a standard PC.

        Contributing

        Please read CONTRIBUTING.md for details on our code of conduct, and the process for submitting pull requests to us.

        Versioning

        We use GitHub for versioning. For the versions available, see the tags on this repository.

        License

        This project is licensed under the Apache License - see the LICENSE file for details

posted @ 2021-08-07 12:09  狼太白  阅读(177)  评论(0编辑  收藏  举报