=====Isolated Multi-Boot===== This is an investigation into pure UEFI isolated multi-boot. Multiple operating systems on an external drive with separate boot managers chainloaded from GRUB. A few take-home points: * UEFI USB booting will look for ''/EFI/BOOT/BOOT.EFI'', in this document ''BOOTX64.EFI''. This is a PE32+ executable starting the GRUB2 bootloader. * Some UEFI Firmware does not work well, or not at all with multiple EFI System Partitions (ESPs) on the same disk, or even machine. * The UEFI firmware's bootmenu is local to the machine, new entries will not be available on other machines. * Booting an encrypted Arch Linux OS from another machine, it might not be possible to enter the pass phrase because the keyboard isn't recognised. For example, using a USB-keyboard on the one and PS/2 on the other machine. You can fix this with running mkinitcpio again so it detects the keyboard, or add the ''atkbd hid_generic ohci_pci usbhid'' modules to mkinitcpio.conf and generate a new initramfs. * Passphrase iteration is determined by cryptsetup depending on CPU power. Decrypting on other hardware might be slower (too slow, or faster). Lookup with ''cryptsetup luksDump''. * If you are creating a new ESP partition using ''parted'', then you also need the boot flag to set the correct partition type. * Use filesystem or partition UUIDs where possible. This persistent naming solves problems when names differ between machines. * Secure Erase an SSD over USB does not work properly! ====Requirements / basic assumptions==== * External drive (SSD over USB with UAS) is ''/dev/sdX''. * GPT Partitioning. * Linux host (using Fedora 26 here) with GRUB2. * Install packages: ''grub2-efi-x64-modules'' ''grub2-efi-x64.x86_64'' ====Partitioning==== In this section we will create the required ESP and the first partition for Arch Linux. ===Secure erase the SSD=== First, lets secure erase the SSD. If you trust the vendor then follow along. Else well, don't store anything in the clear before encrypting the device. Also, don't rely on this procedure if the SSD is USB attached. * Make sure the device is not frozen:# hdparm -I /dev/sdX ... Security: Master password revision code = 65534 supported not enabled not locked ---> not frozen not expired: security count supported: enhanced erase 2min for SECURITY ERASE UNIT. 2min for ENHANCED SECURITY ERASE UNIT. ... * Set password, any password will do, it will be reset to NULL after erasing. # hdparm --user-master u --security-set-pass randomDae6up6A /dev/sdX security_password: "randomDae6up6A" /dev/sda: Issuing SECURITY_SET_PASS command, password="randomDae6up6A", user=user, mode=high * Check that password is ''enabled'': # hdparm -I /dev/sdX Security: Master password revision code = 65534 supported ---> enabled * Secure erase SSD:# time hdparm --user-master u --security-erase randomDae6up6A /dev/sdX security_password: "randomDae6up6A" /dev/sda: Issuing SECURITY_ERASE command, password="randomDae6up6A", user=user * Verify: check that master password is ''supported'', and not enabled: # hdparm -I /dev/sdX Security: Master password revision code = 65534 supported * Verify: make sure old data is removed:partprobe /dev/sdX lsblk dd if=/dev/sdX bs=512 count=63 | hexdump -C ===Partition table, ESP and OS-partition=== Write a GUID Partition Table (GPT), ESP partition and first OS-partition to the disk. * Partiton the drive using the ''parted'' command: # Start at sector 65535, for correct alignment of my SSD. # 512MiB UEFI ESP # 32GiB partition for Arch Linux parted --script /dev/sdX \ mklabel gpt \ unit mib \ mkpart ESP fat32 65535s 1114095s \ toggle 1 boot \ mkpart Arch 1179630s 68287470s * Format the ESP:mkfs.fat -F32 -n ESP /dev/sdX1 ====Install the GRUB2 boot loader==== * Mount the ESP:mount /dev/sdX1 /mnt * Install GRUB:grub2-install --removable --boot-directory=/mnt/boot --efi-directory=/mnt * The ESP should look like this: /mnt ├── boot │   └── grub2 │   ├── fonts │   │   └── unicode.pf2 │   ├── grubenv │   ├── locale │   │   ├── ast.mo │   │   └── zh_TW.mo │   └── x86_64-efi │   ├── acpi.mod │   ├── adler32.mod │   ├── affs.mod │   ├── afs.mod │   ├── zfscrypt.mod │   ├── zfsinfo.mod │   └── zfs.mod └── EFI └── BOOT └── BOOTX64.EFI ====UEFI Shell, our first boot entry ==== To test the concept, lets create a simple first entry starting the UEFI Shell. If you want to program your own UEFI binaries see Rodericks Hello World example: [[http://www.rodsbooks.com/efi-programming/hello.html]] * Download the EFI Shell. [[https://github.com/tianocore/tianocore.github.io]] mkdir /mnt/EFI/UEFI-Shell cd /mnt/EFI/UEFI-Shell curl -OL https://github.com/tianocore/edk2/raw/master/ShellBinPkg/UefiShell/X64/Shell.efi * Lookup the ESP filesystems UUID, here's two ways:# lsblk -f /dev/sdX1 NAME FSTYPE LABEL UUID MOUNTPOINT sdX1 vfat ESP 7A65-AEC7 /mnt # grub2-probe -t fs_uuid -d /dev/sdX1 7A65-AEC7 * Edit ''/mnt/boot/grub2/grub.cfg''. timeout=5 menuentry 'UEFI Shell' { insmod chain insmod search_fs_uuid search --set=root --fs-uuid 7A65-AEC7 chainloader ($root)/EFI/UEFI-Shell/Shell.efi } * To test, unmount the ESP and boot the drive! ====Arch linux, the second boot entry==== Let's install our next OS onto the external drive. We're going to install a full encrypted Arch linux OS, even ''/boot'' will be encrypted! For more information read the [[https://wiki.archlinux.org/index.php/Installation_guide|Arch Linux installation guide]] * Since we're installing from Fedora, we'll need some tools:dnf install squashfs-tools * Download the Arch Linux LiveCD image:curl -O http://ftp.nluug.nl/os/Linux/distr/archlinux/iso/2018.05.01/arch/x86_64/airootfs.sfs * Download the hash:curl -O http://ftp.nluug.nl/os/Linux/distr/archlinux/iso/2018.05.01/arch/x86_64/airootfs.sha512 * Verify the download:sha512sum -c airootfs.sha512 airootfs.sfs: OK * Extract the imageunsquashfs airootfs.sfs * chroot into the install image: mount --bind squashfs-root squashfs-root mount -t proc none squashfs-root/proc mount -t sysfs none squashfs-root/sys mount -o bind /dev squashfs-root/dev mount -o bind /dev/pts squashfs-root/dev/pts ## important for pacman (signature check) cp -L /etc/resolv.conf squashfs-root/etc ## this is needed for networking within the chroot modprobe efivarfs mount -t efivarfs efivarfs squashfs-root/sys/firmware/efi/efivars chroot squashfs-root bash * Initialize pacman: pacman-key --init pacman-key --populate archlinux * Select a mirror in ''/etc/pacman.d/mirrorlist'' and refresh and update the packagespacman -Syyu * Setup encryption:cryptsetup luksFormat /dev/sdX2 cryptsetup open /dev/sdX2 cryptroot * Create the filesystem:mkfs.ext4 /dev/mapper/cryptroot * Mount the new filesystem:mount /dev/mapper/cryptroot /mnt * Install Arch linux onto the new filesystem:pacstrap /mnt base * Create a new ''fstab'' file: $ blkid /dev/mapper/cryptroot /dev/mapper/cryptroot: UUID="3ca1ba61-388f-452c-886b-a36d1a88d785" TYPE="ext4" vi /mnt/etc/fstab UUID=3ca1ba61-388f-452c-886b-a36d1a88d785 / ext4 defaults 0 1 * chroot into the new Arch Linux install:arch-chroot /mnt * Configure the time zone: ln -sf /usr/share/zoneinfo/Europe/Amsterdam /etc/localtime * Set the Hardware Clock from the System Clock, and update the timestamps in /etc/adjtime. hwclock --systohc * Select locales in ''/etc/locale.gen'' and generate the locales:locale-gen localectl set-locale LANG="en_US.UTF-8" * Configure the hostname in ''/etc/hostname'' and ''/etc/hosts'' * Change the root password and create new users:passwd root useradd ... * Add the encrypt to hook in ''/etc/mkinitcpio.conf'': HOOKS="base udev autodetect modconf keyboard keymap block encrypt filesystems fsck" * Generate a new initramfs:mkinitcpio -p linux * Install GRUB:pacman -S grub * Configure GRUB: # blkid /dev/sdX2 /dev/sda2: UUID="628f049e-c5ea-4ef4-8876-50392a5ca1f6" TYPE="crypto_LUKS" PARTLABEL="Arch" PARTUUID="096a076a-e3fd-474e-864d-09aa78fad601" vi /etc/default/grub GRUB_ENABLE_CRYPTODISK=y GRUB_CMDLINE_LINUX="cryptdevice=UUID=628f049e-c5ea-4ef4-8876-50392a5ca1f6:cryptroot" grub-mkconfig -o /boot/grub/grub.cfg * If you want to use the Gnome desktop, install the following packages and services: pacman -S gnome gnome-extra gdm systemctl enable gdm systemctl enable NetworkManager * Exit the chroots:exit # arch-chroot exit # livecd chroot * Mount the ESP and add the new Arch Linux install the boot menu. **Note**: modify the UUIDs: mount /dev/sdX1 /mnt vi /mnt/boot/grub2/grub.cfg menuentry 'Arch Linux' { insmod gzio insmod part_gpt insmod cryptodisk insmod luks insmod gcry_rijndael insmod gcry_sha256 insmod ext2 cryptomount -u 628f049ec5ea4ef4887650392a5ca1f6 set root='cryptouuid/628f049ec5ea4ef4887650392a5ca1f6' configfile /boot/grub/grub.cfg } * Unmount the filesystems mounted from the external drive and test your new Arch Linux install! ====Debian Stretch (9)==== * Add a new 32GiB partition:parted /dev/sdX unit mib mkpart Debian 76807020s 143914861s quit partprobe /dev/sdX * Setup encryption: cryptsetup luksFormat /dev/sdX3 cryptsetup open /dev/sdX3 cryptroot * Create an ext4 filesystem:mkfs.ext4 /dev/mapper/cryptroot * Mount the filesystem: mkdir /mnt/debianroot mount /dev/mapper/cryptroot /mnt/debianroot mkdir -p /mnt/debianroot/boot/efi * Install debootstrap:dnf install debootstrap * Install Debian: # Path is needed when installing from Fedora... PATH="$PATH:/bin:/sbin:/usr/sbin" debootstrap --arch amd64 stretch /mnt/debianroot http://ftp.nl.debian.org/debian .. .. I: Base system installed successfully. * Enter the chroot: mount -t proc none /mnt/debianroot/proc mount -t sysfs none /mnt/debianroot/sys mount -o bind /dev /mnt/debianroot/dev mount -o bind /dev/pts /mnt/debianroot/dev/pts ## important for pacman (for signature check) cp -L /etc/resolv.conf /mnt/debianroot/etc ## this is needed to use networking within the chroot modprobe efivarfs mount -t efivarfs efivarfs /mnt/debianroot/sys/firmware/efi/efivars XTERM=xterm-color LANG=C.UTF-8 PATH="$PATH:/bin:/sbin:/usr/sbin" chroot /mnt/debianroot bash * Edit the fstab: lsblk -f /dev/sdX3 # run outside chroot, UUID of the cryptroot. vi /etc/fstab UUID=cbd33fa1-9d89-4308-a24f-b3128671874a / ext4 defaults 0 1 * Configure Debian: apt install locales dpkg-reconfigure locales tzdata # Install kernel, efibootmgr, grub apt install linux-image-amd64 efibootmgr grub-efi-amd64 cryptsetup initramfs-tools # don't install the grub bootloader yet... vi /etc/crypttab # lookup UUID with blkid /dev/sdX3 cryptroot UUID= none luks Modify "CRYPTSETUP=y" in /etc/cryptsetup-initramfs/conf-hook update-initramfs -ut vi /etc/default/grub GRUB_ENABLE_CRYPTODISK=y grub-mkconfig -o /boot/grub/grub.cfg set hostname in /etc/hostname passwd root useradd... tasksel install desktop tasksel install laptop exit umount -R /mnt/debianroot * Add Debian to grub **Note:** change the UUID's to the blkid found earlier: mount /dev/sdX3 /mnt vi /mnt/boot/grub2/grub.cfg menuentry 'Debian' { insmod gzio insmod part_gpt insmod cryptodisk insmod luks insmod gcry_rijndael insmod gcry_sha256 insmod ext2 cryptomount -u 63a124c1f7744493a20ab5a45bc5e06f set root='cryptouuid/63a124c1f7744493a20ab5a45bc5e06f' configfile /boot/grub/grub.cfg } ====Kali==== * Add a new 32GiB partition:parted /dev/sdX parted /dev/sdX unit s mkpart Kali 143980395s 211088235s align-check optimal 4 quit partprobe /dev/sdX * Setup encryption: cryptsetup luksFormat /dev/sdX4 cryptsetup open /dev/sdX4 cryptroot * Create an ext4 filesystem:mkfs.ext4 /dev/mapper/cryptroot * Mount the filesystem: mkdir /mnt/kaliroot mount /dev/mapper/cryptroot /mnt/kaliroot mkdir -p /mnt/kaliroot/boot/efi * Install debootstrap:dnf install debootstrap * Install Kali: # Download debootstrap file curl "http://git.kali.org/gitweb/?p=packages/debootstrap.git;a=blob_plain;f=scripts/kali;hb=refs/heads/kali/master" > kali-debootstrap # Path is needed when installing from Fedora... PATH="$PATH:/bin:/sbin:/usr/sbin" debootstrap --arch amd64 kali-rolling /mnt/kaliroot http://http.kali.org/kali ./kali-debootstrap .. .. I: Base system installed successfully. * Enter the chroot:mount -t proc none /mnt/kaliroot/proc mount -t sysfs none /mnt/kaliroot/sys mount -o bind /dev /mnt/kaliroot/dev mount -o bind /dev/pts /mnt/kaliroot/dev/pts ## important for pacman (for signature check) cp -L /etc/resolv.conf /mnt/kaliroot/etc ## this is needed to use networking within the chroot modprobe efivarfs mount -t efivarfs efivarfs /mnt/kaliroot/sys/firmware/efi/efivars XTERM=xterm-color LANG=C.UTF-8 PATH="$PATH:/bin:/sbin:/usr/sbin" chroot /mnt/kaliroot bash * Edit the fstab: lsblk -f /dev/sdX4 # run outside chroot, UUID of the cryptroot. vi /etc/fstab UUID=cbd33fa1-9d89-4308-a24f-b3128671874a / ext4 defaults 0 1 * Configure Kali: apt install locales dpkg-reconfigure locales tzdata # Install kernel, efibootmgr, grub apt install linux-image-amd64 efibootmgr grub-efi-amd64 cryptsetup initramfs-tools # don't install the grub bootloader yet... vi /etc/crypttab # lookup UUID with blkid /dev/sdX4 cryptroot UUID= none luks Modify "CRYPTSETUP=y" in /etc/cryptsetup-initramfs/conf-hook update-initramfs -ut vi /etc/default/grub GRUB_ENABLE_CRYPTODISK=y grub-mkconfig -o /boot/grub/grub.cfg set hostname in /etc/hostname passwd root useradd... tasksel install desktop tasksel install laptop exit umount -R /mnt/kaliroot * Add Kali to grub **Note:** change the UUID's to the blkid found earlier: mount /dev/sdX4 /mnt vi /mnt/boot/grub2/grub.cfg menuentry 'Kali' { insmod gzio insmod part_gpt insmod cryptodisk insmod luks insmod gcry_rijndael insmod gcry_sha256 insmod ext2 cryptomount -u 333324c1f7744493a20ab5a45bc5e06f set root='cryptouuid/333324c1f7744493a20ab5a45bc5e06f' configfile /boot/grub/grub.cfg } {{tag>[hardware linux uefi esp]}}