520 lines
14 KiB
Bash
Executable File
520 lines
14 KiB
Bash
Executable File
#!/bin/bash
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# Script is based off official guide: see "Debian Bullseye Root on ZFS"
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# https://openzfs.github.io/openzfs-docs/Getting%20Started/Debian/Debian%20Bullseye%20Root%20on%20ZFS.html
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#################
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### Functions ###
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#################
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function usage () {
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echo "Usage: ./$(basename "$0") [-mpPr] <DISK> <HOSTNAME>"
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}
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function disk_check () {
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DISK_TYPE=$(file "$1" | awk '{ print $2$3 }')
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if [ "$DISK_TYPE" != "blockspecial" ]; then
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echo "ERROR: Disk '$1' is not a block device"
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exit 1
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fi
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}
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function disk_status () {
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OUTPUT=$(wipefs "$1")
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if [ -n "$OUTPUT" ]; then
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echo "ERROR: $1 is not empty"
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echo "$OUTPUT"
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exit 1
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fi
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}
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function password_prompt () {
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unset PASSWORD_PROMPT_RESULT
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while true; do
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read -r -s -p "${1}: " password
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echo ''
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read -r -s -p "${1} (confirm): " password_confirm
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echo ''
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if [ "$password" == "$password_confirm" ]; then
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if [ -z "$password" ]; then
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echo "Password can not be empty, try again."
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else
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break
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fi
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else
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echo "Passwords did not match, try again."
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fi
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done
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PASSWORD_PROMPT_RESULT="$password"
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export PASSWORD_PROMPT_RESULT
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}
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function disk_format () {
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sgdisk -n2:1M:+512M -t2:EF00 "$1"
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sgdisk -n3:0:+1G -t3:BF01 "$1"
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sgdisk -n4:0:0 -t4:BF00 "$1"
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}
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function create_boot_pool () {
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# shellcheck disable=SC2086
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zpool create -f \
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-o ashift=12 \
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-o autotrim=on -d \
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-o cachefile=/etc/zfs/zpool.cache \
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-o feature@async_destroy=enabled \
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-o feature@bookmarks=enabled \
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-o feature@embedded_data=enabled \
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-o feature@empty_bpobj=enabled \
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-o feature@enabled_txg=enabled \
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-o feature@extensible_dataset=enabled \
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-o feature@filesystem_limits=enabled \
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-o feature@hole_birth=enabled \
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-o feature@large_blocks=enabled \
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-o feature@livelist=enabled \
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-o feature@lz4_compress=enabled \
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-o feature@spacemap_histogram=enabled \
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-o feature@zpool_checkpoint=enabled \
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-O devices=off \
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-O acltype=posixacl -O xattr=sa \
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-O compression=lz4 \
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-O normalization=formD \
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-O relatime=on \
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-O canmount=off -O mountpoint=/boot -R "$1" \
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bpool $2
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}
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function create_root_pool () {
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# shellcheck disable=SC2086
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echo "$3" | zpool create -f \
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-o ashift=12 \
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-o autotrim=on \
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-O encryption=on -O keylocation=prompt -O keyformat=passphrase \
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-O acltype=posixacl -O xattr=sa -O dnodesize=auto \
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-O compression=lz4 \
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-O normalization=formD \
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-O relatime=on \
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-O canmount=off -O mountpoint=/ -R "$1" \
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rpool $2
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}
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function part_path () {
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DISK="$1"
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PART="$2"
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[ "$(disk_check "$DISK")" == 1 ] && exit 1
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if [ "${DISK:0:7}" == "/dev/sd" ]; then
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DISK_PART="${DISK}${PART}"
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elif [ "${DISK:0:9}" == "/dev/nvme" ]; then
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DISK_PART="${DISK}p${PART}"
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else
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echo "ERROR: Disk not recognized"
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exit 1
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fi
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[ "$(disk_check "$DISK_PART")" == 1 ] && exit 1
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echo "$DISK_PART"
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exit 0
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}
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function part_by_uuid () {
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OUTPUT=$(
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blkid -s UUID | grep -e "^${1}.*${2}: UUID=" | \
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awk '{ print substr($2, 7, length($2)-7) }'
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)
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if [ -z "$OUTPUT" ]; then
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echo "ERROR: No disk by-uuid label found for: ${1}, partition ${2}"
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exit 1
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fi
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echo "/dev/disk/by-uuid/$OUTPUT"
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}
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function mirror_grub () {
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DISK1_PART2="$(part_by_uuid "$1" 2)"
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DISK2_PART2="$(part_by_uuid "$2" 2)"
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umount /boot/efi
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dd if="$DISK1_PART2" of="$DISK2_PART2"
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efibootmgr -c -g -d "$DISK2" -p 2 \
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-L "debian-${3}" -l '\EFI\debian\grubx64.efi'
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mount /boot/efi
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}
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################
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### Settings ###
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################
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# Static
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export DEBIAN_FRONTEND=noninteractive
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CODENAME="bullseye"
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# Options
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while getopts ':gm:p:P:r:' OPTION; do
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case "$OPTION" in
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g) GRUB_MIRROR="true";;
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m) MIRROR="$OPTARG";;
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p) ROOTPW="$OPTARG";;
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P) RPOOLPW="$OPTARG";;
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r) ZFSROOT="$OPTARG";;
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?)
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usage
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exit 1;;
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esac
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done
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shift "$((OPTIND -1))"
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# Parameters
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DISK=$1
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ZFSHOST=$2
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# Post-boot grub mirror?
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if [ "$GRUB_MIRROR" == "true" ]; then
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while true; do
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echo -e "ORIGINAL GRUB: $DISK\nMIRROR TO: $MIRROR"
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read -r -p "Would you like to mirror GRUB? [y/N]: " yn
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case $yn in
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[Yy]*)
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disk_check "$DISK"
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disk_check "$MIRROR"
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mirror_grub "$DISK" "$MIRROR" 2
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exit 0;;
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?)
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echo "ABORTED: User did not confirm mirroring"
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exit 1;;
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esac
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done
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fi
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# Verify variables
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[ -z "$ZFSROOT" ] && ZFSROOT="/mnt"
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if [ -z "$DISK" ]; then
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echo "ERROR: DISK not set"
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usage
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exit 1
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fi
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if [ -z "$ZFSHOST" ]; then
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echo "ERROR: HOSTNAME not set"
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usage
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exit 1
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fi
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if [ -z "$ROOTPW" ]; then
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password_prompt "Root Passphrase"
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ROOTPW="$PASSWORD_PROMPT_RESULT"
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unset PASSWORD_PROMPT_RESULT
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fi
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if [ -z "$RPOOLPW" ]; then
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password_prompt "ZFS Encryption Passphrase"
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RPOOLPW="$PASSWORD_PROMPT_RESULT"
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unset PASSWORD_PROMPT_RESULT
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fi
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if [ "$DEBUG" == "true" ]; then
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echo "CODENAME=${CODENAME}"
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echo "DISK=${DISK}"
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echo "ZFSHOST=${ZFSHOST}"
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echo "ZFSROOT=${ZFSROOT}"
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echo "MIRROR=${MIRROR}"
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echo "ROOTPW=${ROOTPW}"
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echo "RPOOLPW=${RPOOLPW}"
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fi
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# Are the DISK paths block devices? AND
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# Are the DISK pathes empty devices? i.e., no filesystem signatures
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disk_check "$DISK"
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disk_status "$DISK"
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if [ -n "$MIRROR" ]; then
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disk_check "$MIRROR"
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disk_status "$MIRROR"
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fi
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###############################################
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### Step 1: Prepare The Install Environment ###
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###############################################
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# Display commands
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set -xe
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# 1. Boot the Debian GNU/Linux Live CD... done
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# 2. Setup and update the repositories
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SOURCES_LIST="/etc/apt/sources.list"
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[ -f "$SOURCES_LIST" ] && mv "$SOURCES_LIST" "$SOURCES_LIST.$(date +%s).bak"
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echo "deb http://deb.debian.org/debian/ ${CODENAME} main contrib" > "$SOURCES_LIST"
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apt-get update
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# 3. Optional: Install and start the OpenSSH server in the Live CD environment... done
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# 4. Disable automounting... skipping, no GUI-based automounting present
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# 5. Become root... done
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# 6. Install ZFS in the Live CD environment (plus some tools)
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apt-get install -y debootstrap gdisk zfsutils-linux
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###############################
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### Step 2: Disk Formatting ###
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###############################
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# 1. Set a variable with the disk name
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# 2. If you are re-using a disk, clear it as necessary... skipping: do this yourself :)
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# Ensure swap partitions are not in use
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swapoff --all
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# 3. Partition your disk(s)
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# UEFI booting + boot pool + ZFS native encryption
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disk_format "$DISK"
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if [ -n "$MIRROR" ]; then
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disk_format "$MIRROR"
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fi
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sleep 5
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# 4. Create the boot pool
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# 5. Create the root pool
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if [ -z "$MIRROR" ]; then
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create_boot_pool "$ZFSROOT" "$(part_path "$DISK" 3)"
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create_root_pool "$ZFSROOT" "$(part_path "$DISK" 4)" "$RPOOLPW"
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else
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create_boot_pool "$ZFSROOT" \
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"mirror $(part_path "$DISK" 3) $(part_path "$MIRROR" 3)"
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create_root_pool "$ZFSROOT" \
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"mirror $(part_path "$DISK" 4) $(part_path "$MIRROR" 4)" "$RPOOLPW"
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fi
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###################################
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### Step 3: System Installation ###
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###################################
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# 1. Create filesystem datasets to act as containers
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zfs create -o canmount=off -o mountpoint=none rpool/ROOT
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zfs create -o canmount=off -o mountpoint=none bpool/BOOT
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# 2. Create filesystem datasets for the root and boot filesystems
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zfs create -o canmount=noauto -o mountpoint=/ rpool/ROOT/debian
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zfs mount rpool/ROOT/debian
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zfs create -o mountpoint=/boot bpool/BOOT/debian
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# 3. Create datasets
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zfs create rpool/home
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zfs create -o mountpoint=/root rpool/home/root
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chmod 700 "$ZFSROOT/root"
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zfs create -o canmount=off rpool/var
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zfs create -o canmount=off rpool/var/lib
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zfs create rpool/var/log
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zfs create rpool/var/spool
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# If you wish to separate these to exclude them from snapshots
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zfs create -o com.sun:auto-snapshot=false rpool/var/cache
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zfs create -o com.sun:auto-snapshot=false rpool/var/lib/nfs
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zfs create -o com.sun:auto-snapshot=false rpool/var/tmp
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chmod 1777 "$ZFSROOT/var/tmp"
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# If you use /usr/local on this system
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zfs create -o canmount=off rpool/usr
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zfs create rpool/usr/local
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# If this system will have a GUI
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zfs create rpool/var/lib/AccountsService
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zfs create rpool/var/lib/NetworkManager
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# If this system will use Docker (which manages its own datasets & snapshots)
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zfs create -o com.sun:auto-snapshot=false rpool/var/lib/docker
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# 4. Mount a tmpfs at /run
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mkdir "$ZFSROOT/run"
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mount -t tmpfs tmpfs /mnt/run
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mkdir "$ZFSROOT/run/lock"
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# 5. Install the minimal system
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debootstrap "$CODENAME" /mnt
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# 6. Copy in zpool.cache
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mkdir "$ZFSROOT/etc/zfs"
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cp /etc/zfs/zpool.cache "$ZFSROOT/etc/zfs/"
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####################################
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### Step 4: System Configuration ###
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####################################
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# 1. Configure the hostname
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hostname "$ZFSHOST"
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hostname > "$ZFSROOT/etc/hostname"
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sed "/^127.0.0.1.*localhost/a 127.0.1.1\\t$ZFSHOST" "$ZFSROOT/etc/hosts" | tee "$ZFSROOT/etc/hosts"
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# 2. Configure the network interfaces
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NETWORK_DEVICES=$(ip a | awk '$1 ~ /^[0-9][:]/ {print substr($2, 0, length($2)-1)}')
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while read -r INTER; do
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if [ ! "$INTER" = "lo" ]; then
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cat <<-EOF > "$ZFSROOT/etc/network/interfaces.d/$INTER"
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auto ${INTER}
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iface ${INTER} inet dhcp
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EOF
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fi
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done <<< "$NETWORK_DEVICES"
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# 3. Configure the package sources
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ZFS_SOURCES_LIST="$ZFSROOT/etc/apt/sources.list"
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[ -f "$ZFS_SOURCES_LIST" ] && mv "$ZFS_SOURCES_LIST" "$ZFS_SOURCES_LIST.$(date +%s).bak"
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cat <<-EOF > "$ZFS_SOURCES_LIST"
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deb http://deb.debian.org/debian ${CODENAME} main contrib
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deb-src http://deb.debian.org/debian ${CODENAME} main contrib
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deb http://deb.debian.org/debian-security ${CODENAME}-security main contrib
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deb-src http://deb.debian.org/debian-security ${CODENAME}-security main contrib
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deb http://deb.debian.org/debian ${CODENAME}-updates main contrib
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deb-src http://deb.debian.org/debian ${CODENAME}-updates main contrib
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EOF
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# 4. Bind the virtual filesystems from the LiveCD environment to the new system and chroot into it
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# Copy DISK/MIRROR vars under ZFSROOT
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echo -e "DISK=\"${DISK}\"\nROOTPW=\"${ROOTPW}\"" > "$ZFSROOT/var/tmp/zfsenv"
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# Copy self and GRUB mirror helper script into chroot
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if [ -n "$MIRROR" ]; then
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cp "$0" "$ZFSROOT/usr/local/bin/debianzfs"
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chmod u+x "$ZFSROOT/usr/local/bin/debianzfs"
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HELPER_SCRIPT="/root/MIRROR_GRUB_POSTINSTALL.sh"
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cat <<-GRUBMIRROR > "${ZFSROOT}${HELPER_SCRIPT}"
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#!/bin/bash
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# Post-install GRUB mirror helper script
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/usr/local/bin/debianzfs \
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-gm "$MIRROR_PART2_BYUUID" \
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"$DISK_PART2_BYUUID"
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GRUBMIRROR
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fi
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# Bind
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mount --make-private --rbind /dev /mnt/dev
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mount --make-private --rbind /proc /mnt/proc
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mount --make-private --rbind /sys /mnt/sys
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# Chroot
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cat << CHROOT | chroot /mnt bash --login
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# Setup
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export DEBIAN_FRONTEND=noninteractive
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export LC_CTYPE=en_US.UTF-8
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export LC_ALL=en_US.UTF-8
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set -ex
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. /var/tmp/zfsenv
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unset CDPATH
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cd
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# 5. Configure a basic system environment
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ln -s /proc/self/mounts /etc/mtab
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apt-get update && apt-get upgrade -y
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apt-get install -y console-setup locales
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# Even if you prefer a non-English system language, always ensure that en_US.UTF-8 is available
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dpkg-reconfigure locales tzdata keyboard-configuration console-setup
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# 6. Install ZFS in the chroot environment for the new system
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apt-get install -y dpkg-dev linux-headers-generic linux-image-generic zfs-initramfs
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echo REMAKE_INITRD=yes > /etc/dkms/zfs.conf
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# 7. For LUKS installs only, setup /etc/crypttab... skipping
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# 8. Install GRUB
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# Install GRUB for UEFI booting
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apt-get install -y dosfstools
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mkdosfs -F 32 -s 1 -n EFI "\${DISK}2"
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mkdir /boot/efi
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BLKID_BOOT="/dev/disk/by-uuid/\$(blkid -s UUID -o value \${DISK}2)"
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echo "\${BLKID_BOOT} /boot/efi vfat defaults 0 0" >> /etc/fstab
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mount /boot/efi
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apt-get install -y grub-efi-amd64 shim-signed
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# 9. Optional: Remove os-prober
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apt-get purge -y os-prober
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# 10. Set a root password
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echo "root:\$ROOTPW" | chpasswd
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unset ROOTPW
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# 11. Enable importing bpool
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cat <<- BPOOL > /etc/systemd/system/zfs-import-bpool.service
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[Unit]
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DefaultDependencies=no
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Before=zfs-import-scan.service
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Before=zfs-import-cache.service
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[Service]
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Type=oneshot
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RemainAfterExit=yes
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ExecStart=/sbin/zpool import -N -o cachefile=none bpool
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# Work-around to preserve zpool cache:
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ExecStartPre=-/bin/mv /etc/zfs/zpool.cache /etc/zfs/preboot_zpool.cache
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ExecStartPost=-/bin/mv /etc/zfs/preboot_zpool.cache /etc/zfs/zpool.cache
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[Install]
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WantedBy=zfs-import.target
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BPOOL
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systemctl enable zfs-import-bpool.service
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# 12 Optional (but recommended): Mount a tmpfs to /tmp
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cp /usr/share/systemd/tmp.mount /etc/systemd/system/
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systemctl enable tmp.mount
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# 13. Optional: Install SSH... skipping
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# 14. Optional: For ZFS native encryption or LUKS, configure Dropbear for remote unlocking... skipping
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# 15. Optional (but kindly requested): Install popcon... skipping
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#################################
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### Step 5: GRUB Installation ###
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#################################
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# 1. Verify that the ZFS boot filesystem is recognized
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grub-probe /boot
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# 2. Refresh the initrd files
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update-initramfs -c -k all
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# 3. Workaround GRUB's missing zpool-features support
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sed -i "s/^\(GRUB_CMDLINE_LINUX=\).*/\1\"root=ZFS=rpool\/ROOT\/debian\"/" /etc/default/grub
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# 4. Optional (but highly recommended): Make debugging GRUB easier
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sed -i "s/^\(GRUB_CMDLINE_LINUX_DEFAULT=\).*/\1\"\"/" /etc/default/grub
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sed -i '/GRUB_TERMINAL/s/^#//g' /etc/default/grub
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cat /etc/default/grub
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# 5. Update the boot configuration
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update-grub
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# 6. Install the boot loader
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# For UEFI booting, install GRUB to the ESP
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grub-install --target=x86_64-efi --efi-directory=/boot/efi \
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--bootloader-id=debian --recheck --no-floppy
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# 7. Fix filesystem mount ordering
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mkdir /etc/zfs/zfs-list.cache
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touch /etc/zfs/zfs-list.cache/bpool
|
|
touch /etc/zfs/zfs-list.cache/rpool
|
|
timeout 10 zed -F || \
|
|
|
|
# Verify that zed updated the cache by making sure these are not empty
|
|
test -s /etc/zfs/zfs-list.cache/bpool &&
|
|
test -s /etc/zfs/zfs-list.cache/rpool
|
|
|
|
# Fix the paths to eliminate /mnt
|
|
sed -Ei "s|/mnt/?|/|" /etc/zfs/zfs-list.cache/*
|
|
|
|
##########################
|
|
### Step 6: First Boot ###
|
|
##########################
|
|
|
|
# 1. Optional: Snapshot the initial installation
|
|
zfs snapshot bpool/BOOT/debian@install
|
|
zfs snapshot rpool/ROOT/debian@install
|
|
|
|
# 2. Exit from the chroot environment back to the LiveCD environment
|
|
exit
|
|
CHROOT
|
|
|
|
# 3. Run these commands in the LiveCD environment to unmount all filesystems
|
|
mount | grep -v zfs | tac | awk '/\/mnt/ {print $3}' | \
|
|
xargs -I{} umount -lf {}
|
|
|
|
# 4. If this fails for rpool, mounting it on boot will fail and you will need to
|
|
# zpool import -f rpool, then exit in the initamfs prompt
|
|
zpool export -a || exit 0
|
|
[ -n "$HELPER_SCRIPT" ] && \
|
|
echo "NOTICE: A GRUB mirror helper script was placed at $HELPER_SCRIPT"
|
|
exit 0
|