mirror of
https://gitlab.manjaro.org/applications/manjaro-architect
synced 2024-11-15 18:12:56 +00:00
916 lines
36 KiB
Bash
916 lines
36 KiB
Bash
# !/bin/bash
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#
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# Architect Installation Framework (2016-2017)
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#
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# Written by Carl Duff and @mandog for Archlinux
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# Heavily modified and re-written by @Chrysostomus to install Manjaro instead
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# Contributors: @papajoker, @oberon and the Manjaro-Community.
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#
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# This program is free software, provided under the GNU General Public License
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# as published by the Free Software Foundation. So feel free to copy, distribute,
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# or modify it as you wish.
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# Unmount partitions.
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umount_partitions() {
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MOUNTED=""
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MOUNTED=$(mount | grep "${MOUNTPOINT}" | awk '{print $3}' | sort -r)
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swapoff -a
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for i in ${MOUNTED[@]}; do
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umount $i >/dev/null 2>$ERR
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check_for_error "unmount $i" $?
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# local err=$(umount $i >/dev/null 2>$ERR)
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# (( err !=0 )) && check_for_error "$FUNCNAME $i" $err
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done
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}
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# This function does not assume that the formatted device is the Root installation device as
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# more than one device may be formatted. Root is set in the mount_partitions function.
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select_device() {
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DEVICE=""
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devices_list=$(lsblk -lno NAME,SIZE,TYPE | grep 'disk' | awk '{print "/dev/" $1 " " $2}' | sort -u);
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for i in ${devices_list[@]}; do
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DEVICE="${DEVICE} ${i}"
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done
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DIALOG " $_DevSelTitle " --menu "$_DevSelBody" 0 0 4 ${DEVICE} 2>${ANSWER} || return 1
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DEVICE=$(cat ${ANSWER})
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}
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create_partitions() {
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# Partitioning Menu
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DIALOG " $_PrepPartDisk " --menu "$_PartToolBody" 0 0 7 \
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"$_PartOptWipe" "BIOS & UEFI" \
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"$_PartOptAuto" "BIOS & UEFI" \
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"cfdisk" "BIOS" \
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"cgdisk" "UEFI" \
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"fdisk" "BIOS & UEFI" \
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"gdisk" "UEFI" \
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"parted" "BIOS & UEFI" 2>${ANSWER} || return 0
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clear
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# If something selected
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if [[ $(cat ${ANSWER}) != "" ]]; then
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if ([[ $(cat ${ANSWER}) != "$_PartOptWipe" ]] && [[ $(cat ${ANSWER}) != "$_PartOptAuto" ]]); then
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$(cat ${ANSWER}) ${DEVICE}
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else
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[[ $(cat ${ANSWER}) == "$_PartOptWipe" ]] && secure_wipe && create_partitions
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[[ $(cat ${ANSWER}) == "$_PartOptAuto" ]] && auto_partition
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fi
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fi
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}
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# Securely destroy all data on a given device.
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secure_wipe() {
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# Warn the user. If they proceed, wipe the selected device.
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DIALOG " $_PartOptWipe " --yesno "$_AutoPartWipeBody1 ${DEVICE} $_AutoPartWipeBody2" 0 0
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if [[ $? -eq 0 ]]; then
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# Install wipe where not already installed. Much faster than dd
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inst_needed wipe
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wipe -Ifre ${DEVICE} 2>$ERR
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check_for_error "wipe ${DEVICE}" $?
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# Alternate dd command - requires pv to be installed
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#dd if=/dev/zero | pv | dd of=${DEVICE} iflag=nocache oflag=direct bs=4096 2>$ERR
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fi
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}
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# BIOS and UEFI
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auto_partition() {
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# Provide warning to user
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DIALOG " $_PrepPartDisk " --yesno "$_AutoPartBody1 $DEVICE $_AutoPartBody2 $_AutoPartBody3" 0 0
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if [[ $? -eq 0 ]]; then
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# Find existing partitions (if any) to remove
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parted -s ${DEVICE} print | awk '/^ / {print $1}' > /tmp/.del_parts
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for del_part in $(tac /tmp/.del_parts); do
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parted -s ${DEVICE} rm ${del_part} 2>$ERR
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check_for_error "rm ${del_part} on ${DEVICE}" $?
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done
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# Identify the partition table
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part_table=$(parted -s ${DEVICE} print | grep -i 'partition table' | awk '{print $3}' >/dev/null 2>&1)
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check_for_error "${DEVICE} is $part_table"
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# Create partition table if one does not already exist
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if [[ $SYSTEM == "BIOS" ]] && [[ $part_table != "msdos" ]] ; then
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parted -s ${DEVICE} mklabel msdos 2>$ERR
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check_for_error "${DEVICE} mklabel msdos" $?
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fi
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if [[ $SYSTEM == "UEFI" ]] && [[ $part_table != "gpt" ]] ; then
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parted -s ${DEVICE} mklabel gpt 2>$ERR
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check_for_error "${DEVICE} mklabel gpt" $?
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fi
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# Create partitions (same basic partitioning scheme for BIOS and UEFI)
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if [[ $SYSTEM == "BIOS" ]]; then
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parted -s ${DEVICE} mkpart primary ext3 1MiB 513MiB 2>$ERR
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check_for_error "create ext3 513MiB on ${DEVICE}" $?
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else
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parted -s ${DEVICE} mkpart ESP fat32 1MiB 513MiB 2>$ERR
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check_for_error "create ESP on ${DEVICE}" $?
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fi
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parted -s ${DEVICE} set 1 boot on 2>$ERR
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check_for_error "set boot flag for ${DEVICE}" $?
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parted -s ${DEVICE} mkpart primary ext3 513MiB 100% 2>$ERR
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check_for_error "create ext3 100% on ${DEVICE}" $?
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# Show created partitions
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lsblk ${DEVICE} -o NAME,TYPE,FSTYPE,SIZE > /tmp/.devlist
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DIALOG "" --textbox /tmp/.devlist 0 0
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fi
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}
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# Finds all available partitions according to type(s) specified and generates a list
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# of them. This also includes partitions on different devices.
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find_partitions() {
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PARTITIONS=""
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NUMBER_PARTITIONS=0
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partition_list=$(lsblk -lno NAME,SIZE,TYPE | grep $INCLUDE_PART | sed 's/part$/\/dev\//g' | sed 's/lvm$\|crypt$/\/dev\/mapper\//g' | \
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awk '{print $3$1 " " $2}' | awk '!/mapper/{a[++i]=$0;next}1;END{while(x<length(a))print a[++x]}')
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for i in ${partition_list}; do
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PARTITIONS="${PARTITIONS} ${i}"
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NUMBER_PARTITIONS=$(( NUMBER_PARTITIONS + 1 ))
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done
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# Double-partitions will be counted due to counting sizes, so fix
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NUMBER_PARTITIONS=$(( NUMBER_PARTITIONS / 2 ))
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check_for_error "--------- [lsblk] ------------"
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local parts=($PARTITIONS)
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for i in ${!parts[@]}; do
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(( $i % 2 == 0 )) || continue
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local j=$((i+1))
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check_for_error "${parts[i]} ${parts[j]}"
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done
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#for test delete /dev:sda8
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#delete_partition_in_list "/dev/sda8"
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# Deal with partitioning schemes appropriate to mounting, lvm, and/or luks.
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case $INCLUDE_PART in
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'part\|lvm\|crypt')
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# Deal with incorrect partitioning for main mounting function
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if ([[ $SYSTEM == "UEFI" ]] && [[ $NUMBER_PARTITIONS -lt 2 ]]) || ([[ $SYSTEM == "BIOS" ]] && [[ $NUMBER_PARTITIONS -eq 0 ]]); then
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DIALOG " $_ErrTitle " --msgbox "$_PartErrBody" 0 0
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create_partitions
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fi
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;;
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'part\|crypt')
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# Ensure there is at least one partition for LVM
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if [[ $NUMBER_PARTITIONS -eq 0 ]]; then
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DIALOG " $_ErrTitle " --msgbox "$_LvmPartErrBody" 0 0
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create_partitions
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fi
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;;
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'part\|lvm') # Ensure there are at least two partitions for LUKS
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if [[ $NUMBER_PARTITIONS -lt 2 ]]; then
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DIALOG " $_ErrTitle " --msgbox "$_LuksPartErrBody" 0 0
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create_partitions
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fi
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;;
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esac
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}
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## List partitions to be hidden from the mounting menu
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list_mounted() {
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lsblk -l | awk '$7 ~ /mnt/ {print $1}' > /tmp/.mounted
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check_for_error "already mounted: $(cat /tmp/.mounted)"
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echo /dev/* /dev/mapper/* | xargs -n1 2>/dev/null | grep -f /tmp/.mounted
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}
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list_containing_crypt() {
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blkid | awk '/TYPE="crypto_LUKS"/{print $1}' | sed 's/.$//'
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}
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list_non_crypt() {
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blkid | awk '!/TYPE="crypto_LUKS"/{print $1}' | sed 's/.$//'
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}
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# delete partition in list $PARTITIONS
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# param: partition to delete
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delete_partition_in_list() {
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[ -z "$1" ] && return 127
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local parts=($PARTITIONS)
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for i in ${!parts[@]}; do
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(( $i % 2 == 0 )) || continue
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if [[ "${parts[i]}" = "$1" ]]; then
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local j=$((i+1))
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unset parts[$j]
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unset parts[$i]
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check_for_error "in partitions delete item $1 no: $i / $j"
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PARTITIONS="${parts[*]}"
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check_for_error "partitions: $PARTITIONS"
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NUMBER_PARTITIONS=$(( "${#parts[*]}" / 2 ))
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return 0
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fi
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done
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return 0
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}
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# Revised to deal with partion sizes now being displayed to the user
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confirm_mount() {
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if [[ $(mount | grep $1) ]]; then
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DIALOG " $_MntStatusTitle " --infobox "$_MntStatusSucc" 0 0
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sleep 2
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PARTITIONS=$(echo $PARTITIONS | sed "s~${PARTITION} [0-9]*[G-M]~~" | sed "s~${PARTITION} [0-9]*\.[0-9]*[G-M]~~" | sed s~${PARTITION}$' -'~~)
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NUMBER_PARTITIONS=$(( NUMBER_PARTITIONS - 1 ))
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else
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DIALOG " $_MntStatusTitle " --infobox "$_MntStatusFail" 0 0
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sleep 2
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fi
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}
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# Set static list of filesystems rather than on-the-fly. Partially as most require additional flags, and
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# partially because some don't seem to be viable.
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# Set static list of filesystems rather than on-the-fly.
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select_filesystem() {
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# prep variables
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fs_opts=""
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CHK_NUM=0
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DIALOG " $_FSTitle " --menu "$_FSBody" 0 0 12 \
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"$_FSSkip" "-" \
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"btrfs" "mkfs.btrfs -f" \
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"ext3" "mkfs.ext3 -q" \
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"ext4" "mkfs.ext4 -q" \
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"jfs" "mkfs.jfs -q" \
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"nilfs2" "mkfs.nilfs2 -fq" \
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"ntfs" "mkfs.ntfs -q" \
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"reiserfs" "mkfs.reiserfs -q" \
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"vfat" "mkfs.vfat -F32" \
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"xfs" "mkfs.xfs -f" 2>${ANSWER} || return 1
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case $(cat ${ANSWER}) in
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"$_FSSkip") FILESYSTEM="$_FSSkip"
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;;
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"btrfs") FILESYSTEM="mkfs.btrfs -f"
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CHK_NUM=16
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fs_opts="autodefrag compress=zlib compress=lzo compress=no compress-force=zlib compress-force=lzo discard \
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noacl noatime nodatasum nospace_cache recovery skip_balance space_cache ssd ssd_spread"
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modprobe btrfs
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;;
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"ext2") FILESYSTEM="mkfs.ext2 -q"
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;;
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"ext3") FILESYSTEM="mkfs.ext3 -q"
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;;
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"ext4") FILESYSTEM="mkfs.ext4 -q"
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CHK_NUM=8
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fs_opts="data=journal data=writeback dealloc discard noacl noatime nobarrier nodelalloc"
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;;
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"f2fs") FILESYSTEM="mkfs.f2fs -q"
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fs_opts="data_flush disable_roll_forward disable_ext_identify discard fastboot flush_merge \
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inline_xattr inline_data inline_dentry no_heap noacl nobarrier noextent_cache noinline_data norecovery"
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CHK_NUM=16
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modprobe f2fs
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;;
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"jfs") FILESYSTEM="mkfs.jfs -q"
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CHK_NUM=4
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fs_opts="discard errors=continue errors=panic nointegrity"
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;;
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"nilfs2") FILESYSTEM="mkfs.nilfs2 -fq"
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CHK_NUM=7
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fs_opts="discard nobarrier errors=continue errors=panic order=relaxed order=strict norecovery"
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;;
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"ntfs") FILESYSTEM="mkfs.ntfs -q"
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;;
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"reiserfs") FILESYSTEM="mkfs.reiserfs -q"
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CHK_NUM=5
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fs_opts="acl nolog notail replayonly user_xattr"
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;;
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"vfat") FILESYSTEM="mkfs.vfat -F32"
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;;
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"xfs") FILESYSTEM="mkfs.xfs -f"
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CHK_NUM=9
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fs_opts="discard filestreams ikeep largeio noalign nobarrier norecovery noquota wsync"
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;;
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*) return 1
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;;
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esac
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# Warn about formatting!
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if [[ $FILESYSTEM != $_FSSkip ]]; then
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DIALOG " $_FSTitle " --yesno "\n$_FSMount $FILESYSTEM\n\n! $_FSWarn1 $PARTITION $_FSWarn2 !\n\n" 0 0
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if (( $? != 1 )); then
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${FILESYSTEM} ${PARTITION} >/dev/null 2>$ERR
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check_for_error "mount $PARTITION as $FILESYSTEM." $?
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fi
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fi
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}
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# This subfunction allows for special mounting options to be applied for relevant fs's.
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# Seperate subfunction for neatness.
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mount_opts() {
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FS_OPTS=""
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for i in ${fs_opts}; do
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FS_OPTS="${FS_OPTS} ${i} - off"
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done
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DIALOG " $(echo $FILESYSTEM | sed "s/.*\.//g" | sed "s/-.*//g") " --checklist "$_btrfsMntBody" 0 0 \
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$CHK_NUM $FS_OPTS 2>${MOUNT_OPTS}
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# Now clean up the file
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sed -i 's/ /,/g' ${MOUNT_OPTS}
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sed -i '$s/,$//' ${MOUNT_OPTS}
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# If mount options selected, confirm choice
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if [[ $(cat ${MOUNT_OPTS}) != "" ]]; then
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DIALOG " $_MntStatusTitle " --yesno "\n${_btrfsMntConfBody}$(cat ${MOUNT_OPTS})\n" 10 75
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[[ $? -eq 1 ]] && echo "" > ${MOUNT_OPTS}
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fi
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}
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mount_current_partition() {
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# Make the mount directory
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mkdir -p ${MOUNTPOINT}${MOUNT} 2>$ERR
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check_for_error "create mountpoint ${MOUNTPOINT}${MOUNT}" "$?"
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echo "" > ${MOUNT_OPTS}
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# Get mounting options for appropriate filesystems
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[[ $fs_opts != "" ]] && mount_opts
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# Use special mounting options if selected, else standard mount
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if [[ $(cat ${MOUNT_OPTS}) != "" ]]; then
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check_for_error "mount ${PARTITION} $(cat ${MOUNT_OPTS})"
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mount -o $(cat ${MOUNT_OPTS}) ${PARTITION} ${MOUNTPOINT}${MOUNT} 2>>$LOGFILE
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else
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check_for_error "mount ${PARTITION}"
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mount ${PARTITION} ${MOUNTPOINT}${MOUNT} 2>>$LOGFILE
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fi
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confirm_mount ${MOUNTPOINT}${MOUNT}
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# Identify if mounted partition is type "crypt" (LUKS on LVM, or LUKS alone)
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if [[ $(lsblk -lno TYPE ${PARTITION} | grep "crypt") != "" ]]; then
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# cryptname for bootloader configuration either way
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LUKS=1
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LUKS_NAME=$(echo ${PARTITION} | sed "s~^/dev/mapper/~~g")
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# Check if LUKS on LVM (parent = lvm /dev/mapper/...)
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cryptparts=$(lsblk -lno NAME,FSTYPE,TYPE | grep "lvm" | grep -i "crypto_luks" | uniq | awk '{print "/dev/mapper/"$1}')
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for i in ${cryptparts}; do
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if [[ $(lsblk -lno NAME ${i} | grep $LUKS_NAME) != "" ]]; then
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LUKS_DEV="$LUKS_DEV cryptdevice=${i}:$LUKS_NAME"
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LVM=1
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return 0;
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fi
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done
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# Check if LUKS alone (parent = part /dev/...)
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cryptparts=$(lsblk -lno NAME,FSTYPE,TYPE | grep "part" | grep -i "crypto_luks" | uniq | awk '{print "/dev/"$1}')
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for i in ${cryptparts}; do
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if [[ $(lsblk -lno NAME ${i} | grep $LUKS_NAME) != "" ]]; then
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LUKS_UUID=$(lsblk -lno UUID,TYPE,FSTYPE ${i} | grep "part" | grep -i "crypto_luks" | awk '{print $1}')
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LUKS_DEV="$LUKS_DEV cryptdevice=UUID=$LUKS_UUID:$LUKS_NAME"
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return 0;
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fi
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done
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# If LVM logical volume....
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elif [[ $(lsblk -lno TYPE ${PARTITION} | grep "lvm") != "" ]]; then
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LVM=1
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# First get crypt name (code above would get lv name)
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cryptparts=$(lsblk -lno NAME,TYPE,FSTYPE | grep "crypt" | grep -i "lvm2_member" | uniq | awk '{print "/dev/mapper/"$1}')
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for i in ${cryptparts}; do
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if [[ $(lsblk -lno NAME ${i} | grep $(echo $PARTITION | sed "s~^/dev/mapper/~~g")) != "" ]]; then
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LUKS_NAME=$(echo ${i} | sed s~/dev/mapper/~~g)
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return 0;
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fi
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done
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# Now get the device (/dev/...) for the crypt name
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cryptparts=$(lsblk -lno NAME,FSTYPE,TYPE | grep "part" | grep -i "crypto_luks" | uniq | awk '{print "/dev/"$1}')
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for i in ${cryptparts}; do
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if [[ $(lsblk -lno NAME ${i} | grep $LUKS_NAME) != "" ]]; then
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# Create UUID for comparison
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LUKS_UUID=$(lsblk -lno UUID,TYPE,FSTYPE ${i} | grep "part" | grep -i "crypto_luks" | awk '{print $1}')
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# Check if not already added as a LUKS DEVICE (i.e. multiple LVs on one crypt). If not, add.
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if [[ $(echo $LUKS_DEV | grep $LUKS_UUID) == "" ]]; then
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LUKS_DEV="$LUKS_DEV cryptdevice=UUID=$LUKS_UUID:$LUKS_NAME"
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LUKS=1
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fi
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return 0;
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fi
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done
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fi
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}
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make_swap() {
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# Ask user to select partition or create swapfile
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DIALOG " $_PrepMntPart " --menu "$_SelSwpBody" 0 0 12 "$_SelSwpNone" $"-" "$_SelSwpFile" $"-" ${PARTITIONS} 2>${ANSWER} || return 0
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if [[ $(cat ${ANSWER}) != "$_SelSwpNone" ]]; then
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PARTITION=$(cat ${ANSWER})
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if [[ $PARTITION == "$_SelSwpFile" ]]; then
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total_memory=$(grep MemTotal /proc/meminfo | awk '{print $2/1024}' | sed 's/\..*//')
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DIALOG " $_SelSwpFile " --inputbox "\nM = MB, G = GB\n" 9 30 "${total_memory}M" 2>${ANSWER} || return 0
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m_or_g=$(cat ${ANSWER})
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while [[ $(echo ${m_or_g: -1} | grep "M\|G") == "" ]]; do
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DIALOG " $_SelSwpFile " --msgbox "\n$_SelSwpFile $_ErrTitle: M = MB, G = GB\n\n" 0 0
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DIALOG " $_SelSwpFile " --inputbox "\nM = MB, G = GB\n" 9 30 "${total_memory}M" 2>${ANSWER} || return 0
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m_or_g=$(cat ${ANSWER})
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done
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fallocate -l ${m_or_g} ${MOUNTPOINT}/swapfile 2>$ERR
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check_for_error "Swapfile fallocate" "$?"
|
|
chmod 600 ${MOUNTPOINT}/swapfile 2>$ERR
|
|
check_for_error "Swapfile chmod" "$?"
|
|
mkswap ${MOUNTPOINT}/swapfile 2>$ERR
|
|
check_for_error "Swapfile mkswap" "$?"
|
|
swapon ${MOUNTPOINT}/swapfile 2>$ERR
|
|
check_for_error "Swapfile swapon" "$?"
|
|
|
|
else # Swap Partition
|
|
# Warn user if creating a new swap
|
|
if [[ $(lsblk -o FSTYPE ${PARTITION} | grep -i "swap") != "swap" ]]; then
|
|
DIALOG " $_PrepMntPart " --yesno "\nmkswap ${PARTITION}\n\n" 0 0
|
|
if [[ $? -eq 0 ]]; then
|
|
mkswap ${PARTITION} >/dev/null 2>$ERR
|
|
check_for_error "Swap partition: mkswap" "$?"
|
|
else
|
|
return 0
|
|
fi
|
|
fi
|
|
# Whether existing to newly created, activate swap
|
|
swapon ${PARTITION} >/dev/null 2>$ERR
|
|
check_for_error "Swap partition: swapon" "$?"
|
|
# Since a partition was used, remove that partition from the list
|
|
PARTITIONS=$(echo $PARTITIONS | sed "s~${PARTITION} [0-9]*[G-M]~~" | sed "s~${PARTITION} [0-9]*\.[0-9]*[G-M]~~" | sed s~${PARTITION}$' -'~~)
|
|
NUMBER_PARTITIONS=$(( NUMBER_PARTITIONS - 1 ))
|
|
fi
|
|
fi
|
|
}
|
|
|
|
# Had to write it in this way due to (bash?) bug(?), as if/then statements in a single
|
|
# "create LUKS" function for default and "advanced" modes were interpreted as commands,
|
|
# not mere string statements. Not happy with it, but it works...
|
|
luks_password() {
|
|
DIALOG " $_PrepLUKS " --clear --insecure --passwordbox "$_LuksPassBody" 0 0 2> ${ANSWER} || return 0
|
|
PASSWD=$(cat ${ANSWER})
|
|
|
|
DIALOG " $_PrepLUKS " --clear --insecure --passwordbox "$_PassReEntBody" 0 0 2> ${ANSWER} || return 0
|
|
PASSWD2=$(cat ${ANSWER})
|
|
|
|
if [[ $PASSWD != $PASSWD2 ]]; then
|
|
DIALOG " $_ErrTitle " --msgbox "$_PassErrBody" 0 0
|
|
luks_password
|
|
fi
|
|
}
|
|
|
|
luks_open() {
|
|
LUKS_ROOT_NAME=""
|
|
INCLUDE_PART='part\|crypt\|lvm'
|
|
umount_partitions
|
|
find_partitions
|
|
# Filter out partitions that don't contain crypt device
|
|
list_non_crypt > /tmp/.ignore_part
|
|
|
|
for part in $(cat /tmp/.ignore_part); do
|
|
delete_partition_in_list $part
|
|
done
|
|
|
|
# Select encrypted partition to open
|
|
DIALOG " $_LuksOpen " --menu "$_LuksMenuBody" 0 0 12 ${PARTITIONS} 2>${ANSWER} || return 1
|
|
PARTITION=$(cat ${ANSWER})
|
|
|
|
# Enter name of the Luks partition and get password to open it
|
|
DIALOG " $_LuksOpen " --inputbox "$_LuksOpenBody" 10 50 "cryptroot" 2>${ANSWER} || return 1
|
|
LUKS_ROOT_NAME=$(cat ${ANSWER})
|
|
luks_password
|
|
|
|
# Try to open the luks partition with the credentials given. If successful show this, otherwise
|
|
# show the error
|
|
DIALOG " $_LuksOpen " --infobox "$_PlsWaitBody" 0 0
|
|
echo $PASSWD | cryptsetup open --type luks ${PARTITION} ${LUKS_ROOT_NAME} 2>$ERR
|
|
check_for_error "luks pwd ${PARTITION} ${LUKS_ROOT_NAME}" "$?"
|
|
|
|
lsblk -o NAME,TYPE,FSTYPE,SIZE,MOUNTPOINT ${PARTITION} | grep "crypt\|NAME\|MODEL\|TYPE\|FSTYPE\|SIZE" > /tmp/.devlist
|
|
DIALOG " $_DevShowOpt " --textbox /tmp/.devlist 0 0
|
|
}
|
|
|
|
luks_setup() {
|
|
modprobe -a dm-mod dm_crypt
|
|
INCLUDE_PART='part\|lvm'
|
|
umount_partitions
|
|
find_partitions
|
|
# Select partition to encrypt
|
|
DIALOG " $_LuksEncrypt " --menu "$_LuksCreateBody" 0 0 12 ${PARTITIONS} 2>${ANSWER} || return 1
|
|
PARTITION=$(cat ${ANSWER})
|
|
|
|
# Enter name of the Luks partition and get password to create it
|
|
DIALOG " $_LuksEncrypt " --inputbox "$_LuksOpenBody" 10 50 "cryptroot" 2>${ANSWER} || return 1
|
|
LUKS_ROOT_NAME=$(cat ${ANSWER})
|
|
luks_password
|
|
}
|
|
|
|
luks_default() {
|
|
# Encrypt selected partition or LV with credentials given
|
|
DIALOG " $_LuksEncrypt " --infobox "$_PlsWaitBody" 0 0
|
|
sleep 2
|
|
echo $PASSWD | cryptsetup -q luksFormat ${PARTITION} 2>$ERR
|
|
check_for_error "luksFormat ${PARTITION}" $?
|
|
|
|
# Now open the encrypted partition or LV
|
|
echo $PASSWD | cryptsetup open ${PARTITION} ${LUKS_ROOT_NAME} 2>$ERR
|
|
check_for_error "open ${PARTITION} ${LUKS_ROOT_NAME}" $?
|
|
}
|
|
|
|
luks_key_define() {
|
|
DIALOG " $_PrepLUKS " --inputbox "$_LuksCipherKey" 0 0 "-s 512 -c aes-xts-plain64" 2>${ANSWER} || return 1
|
|
|
|
# Encrypt selected partition or LV with credentials given
|
|
DIALOG " $_LuksEncryptAdv " --infobox "$_PlsWaitBody" 0 0
|
|
sleep 2
|
|
|
|
echo $PASSWD | cryptsetup -q $(cat ${ANSWER}) luksFormat ${PARTITION} 2>$ERR
|
|
check_for_error "encrypt ${PARTITION}" "$?"
|
|
|
|
# Now open the encrypted partition or LV
|
|
echo $PASSWD | cryptsetup open ${PARTITION} ${LUKS_ROOT_NAME} 2>$ERR
|
|
check_for_error "open ${PARTITION} ${LUKS_ROOT_NAME}" "$?"
|
|
}
|
|
|
|
luks_show() {
|
|
echo -e ${_LuksEncruptSucc} > /tmp/.devlist
|
|
lsblk -o NAME,TYPE,FSTYPE,SIZE ${PARTITION} | grep "part\|crypt\|NAME\|TYPE\|FSTYPE\|SIZE" >> /tmp/.devlist
|
|
DIALOG " $_LuksEncrypt " --textbox /tmp/.devlist 0 0
|
|
}
|
|
|
|
luks_menu() {
|
|
LUKS_OPT=""
|
|
|
|
DIALOG " $_PrepLUKS " --menu "$_LuksMenuBody$_LuksMenuBody2$_LuksMenuBody3" 0 0 4 \
|
|
"$_LuksOpen" "cryptsetup open --type luks" \
|
|
"$_LuksEncrypt" "cryptsetup -q luksFormat" \
|
|
"$_LuksEncryptAdv" "cryptsetup -q -s -c luksFormat" \
|
|
"$_Back" "-" 2>${ANSWER}
|
|
|
|
case $(cat ${ANSWER}) in
|
|
"$_LuksOpen") luks_open
|
|
;;
|
|
"$_LuksEncrypt") luks_setup && luks_default && luks_show
|
|
;;
|
|
"$_LuksEncryptAdv") luks_setup && luks_key_define && luks_show
|
|
;;
|
|
*) return 0
|
|
;;
|
|
esac
|
|
}
|
|
|
|
lvm_detect() {
|
|
LVM_PV=$(pvs -o pv_name --noheading 2>/dev/null)
|
|
LVM_VG=$(vgs -o vg_name --noheading 2>/dev/null)
|
|
LVM_LV=$(lvs -o vg_name,lv_name --noheading --separator - 2>/dev/null)
|
|
|
|
if [[ $LVM_LV != "" ]] && [[ $LVM_VG != "" ]] && [[ $LVM_PV != "" ]]; then
|
|
DIALOG " $_PrepLVM " --infobox "$_LvmDetBody" 0 0
|
|
modprobe dm-mod 2>$ERR
|
|
check_for_error "modprobe dm-mod" "$?"
|
|
vgscan >/dev/null 2>&1
|
|
vgchange -ay >/dev/null 2>&1
|
|
fi
|
|
}
|
|
|
|
lvm_show_vg() {
|
|
VG_LIST=""
|
|
vg_list=$(lvs --noheadings | awk '{print $2}' | uniq)
|
|
|
|
for i in ${vg_list}; do
|
|
VG_LIST="${VG_LIST} ${i} $(vgdisplay ${i} | grep -i "vg size" | awk '{print $3$4}')"
|
|
done
|
|
}
|
|
|
|
# Create Volume Group and Logical Volumes
|
|
lvm_create() {
|
|
# Find LVM appropriate partitions.
|
|
INCLUDE_PART='part\|crypt'
|
|
umount_partitions
|
|
find_partitions
|
|
# Amend partition(s) found for use in check list
|
|
PARTITIONS=$(echo $PARTITIONS | sed 's/M\|G\|T/& off/g')
|
|
|
|
# Name the Volume Group
|
|
DIALOG " $_LvmCreateVG " --inputbox "$_LvmNameVgBody" 0 0 "" 2>${ANSWER} || return 0
|
|
LVM_VG=$(cat ${ANSWER})
|
|
|
|
# Loop while the Volume Group name starts with a "/", is blank, has spaces, or is already being used
|
|
while [[ ${LVM_VG:0:1} == "/" ]] || [[ ${#LVM_VG} -eq 0 ]] || [[ $LVM_VG =~ \ |\' ]] || [[ $(lsblk | grep ${LVM_VG}) != "" ]]; do
|
|
DIALOG " $_ErrTitle " --msgbox "$_LvmNameVgErr" 0 0
|
|
DIALOG " $_LvmCreateVG " --inputbox "$_LvmNameVgBody" 0 0 "" 2>${ANSWER} || return 0
|
|
LVM_VG=$(cat ${ANSWER})
|
|
done
|
|
|
|
# Select the partition(s) for the Volume Group
|
|
DIALOG " $_LvmCreateVG " --checklist "$_LvmPvSelBody\n\n$_UseSpaceBar" 0 0 12 ${PARTITIONS} 2>${ANSWER} || return 0
|
|
[[ $(cat ${ANSWER}) != "" ]] && VG_PARTS=$(cat ${ANSWER}) || return 0
|
|
|
|
# Once all the partitions have been selected, show user. On confirmation, use it/them in 'vgcreate' command.
|
|
# Also determine the size of the VG, to use for creating LVs for it.
|
|
DIALOG " $_LvmCreateVG " --yesno "$_LvmPvConfBody1${LVM_VG} $_LvmPvConfBody2${VG_PARTS}" 0 0
|
|
|
|
if [[ $? -eq 0 ]]; then
|
|
DIALOG " $_LvmCreateVG " --infobox "$_LvmPvActBody1${LVM_VG}.$_PlsWaitBody" 0 0
|
|
sleep 1
|
|
vgcreate -f ${LVM_VG} ${VG_PARTS} >/dev/null 2>$ERR
|
|
check_for_error "vgcreate -f ${LVM_VG} ${VG_PARTS}" "$?"
|
|
|
|
# Once created, get size and size type for display and later number-crunching for lv creation
|
|
VG_SIZE=$(vgdisplay $LVM_VG | grep 'VG Size' | awk '{print $3}' | sed 's/\..*//')
|
|
VG_SIZE_TYPE=$(vgdisplay $LVM_VG | grep 'VG Size' | awk '{print $4}')
|
|
|
|
# Convert the VG size into GB and MB. These variables are used to keep tabs on space available and remaining
|
|
[[ ${VG_SIZE_TYPE:0:1} == "G" ]] && LVM_VG_MB=$(( VG_SIZE * 1000 )) || LVM_VG_MB=$VG_SIZE
|
|
|
|
DIALOG " $_LvmCreateVG " --msgbox "$_LvmPvDoneBody1 '${LVM_VG}' $_LvmPvDoneBody2 (${VG_SIZE} ${VG_SIZE_TYPE}).\n\n" 0 0 || return 0
|
|
fi
|
|
|
|
#
|
|
# Once VG created, create Logical Volumes
|
|
#
|
|
|
|
# Specify number of Logical volumes to create.
|
|
DIALOG " $_LvmCreateVG " --radiolist "$_LvmLvNumBody1 ${LVM_VG}. $_LvmLvNumBody2" 0 0 9 \
|
|
"1" "-" off "2" "-" off "3" "-" off "4" "-" off "5" "-" off "6" "-" off "7" "-" off "8" "-" off "9" "-" off 2>${ANSWER}
|
|
|
|
[[ $(cat ${ANSWER}) == "" ]] && lvm_menu || NUMBER_LOGICAL_VOLUMES=$(cat ${ANSWER})
|
|
|
|
# Loop while the number of LVs is greater than 1. This is because the size of the last LV is automatic.
|
|
while [[ $NUMBER_LOGICAL_VOLUMES -gt 1 ]]; do
|
|
DIALOG " $_LvmCreateVG (LV:$NUMBER_LOGICAL_VOLUMES) " --inputbox "$_LvmLvNameBody1" 0 0 "lvol" 2>${ANSWER} || return 0
|
|
LVM_LV_NAME=$(cat ${ANSWER})
|
|
|
|
# Loop if preceeded with a "/", if nothing is entered, if there is a space, or if that name already exists.
|
|
while [[ ${LVM_LV_NAME:0:1} == "/" ]] || [[ ${#LVM_LV_NAME} -eq 0 ]] || [[ ${LVM_LV_NAME} =~ \ |\' ]] || [[ $(lsblk | grep ${LVM_LV_NAME}) != "" ]]; do
|
|
DIALOG " $_ErrTitle " --msgbox "$_LvmLvNameErrBody" 0 0
|
|
DIALOG " $_LvmCreateVG (LV:$NUMBER_LOGICAL_VOLUMES) " --inputbox "$_LvmLvNameBody1" 0 0 "lvol" 2>${ANSWER} || return 0
|
|
LVM_LV_NAME=$(cat ${ANSWER})
|
|
done
|
|
|
|
DIALOG " $_LvmCreateVG (LV:$NUMBER_LOGICAL_VOLUMES) " --inputbox "\n${LVM_VG}: ${VG_SIZE}${VG_SIZE_TYPE} (${LVM_VG_MB}MB \
|
|
$_LvmLvSizeBody1).$_LvmLvSizeBody2" 0 0 "" 2>${ANSWER} || return 0
|
|
LVM_LV_SIZE=$(cat ${ANSWER})
|
|
check_lv_size
|
|
|
|
# Loop while an invalid value is entered.
|
|
while [[ $LV_SIZE_INVALID -eq 1 ]]; do
|
|
DIALOG " $_ErrTitle " --msgbox "$_LvmLvSizeErrBody" 0 0
|
|
DIALOG " $_LvmCreateVG (LV:$NUMBER_LOGICAL_VOLUMES) " --inputbox "\n${LVM_VG}: ${VG_SIZE}${VG_SIZE_TYPE} \
|
|
(${LVM_VG_MB}MB $_LvmLvSizeBody1).$_LvmLvSizeBody2" 0 0 "" 2>${ANSWER} || return 0
|
|
LVM_LV_SIZE=$(cat ${ANSWER})
|
|
check_lv_size
|
|
done
|
|
|
|
# Create the LV
|
|
lvcreate -L ${LVM_LV_SIZE} ${LVM_VG} -n ${LVM_LV_NAME} 2>$ERR
|
|
check_for_error "lvcreate -L ${LVM_LV_SIZE} ${LVM_VG} -n ${LVM_LV_NAME}" "$?"
|
|
DIALOG " $_LvmCreateVG (LV:$NUMBER_LOGICAL_VOLUMES) " --msgbox "\n$_Done\n\nLV ${LVM_LV_NAME} (${LVM_LV_SIZE}) $_LvmPvDoneBody2.\n\n" 0 0
|
|
NUMBER_LOGICAL_VOLUMES=$(( NUMBER_LOGICAL_VOLUMES - 1 ))
|
|
done
|
|
|
|
# Now the final LV. Size is automatic.
|
|
DIALOG " $_LvmCreateVG (LV:$NUMBER_LOGICAL_VOLUMES) " --inputbox "$_LvmLvNameBody1 $_LvmLvNameBody2 (${LVM_VG_MB}MB)." 0 0 "lvol" 2>${ANSWER} || return 0
|
|
LVM_LV_NAME=$(cat ${ANSWER})
|
|
|
|
# Loop if preceeded with a "/", if nothing is entered, if there is a space, or if that name already exists.
|
|
while [[ ${LVM_LV_NAME:0:1} == "/" ]] || [[ ${#LVM_LV_NAME} -eq 0 ]] || [[ ${LVM_LV_NAME} =~ \ |\' ]] || [[ $(lsblk | grep ${LVM_LV_NAME}) != "" ]]; do
|
|
DIALOG " $_ErrTitle " --msgbox "$_LvmLvNameErrBody" 0 0
|
|
DIALOG " $_LvmCreateVG (LV:$NUMBER_LOGICAL_VOLUMES) " --inputbox "$_LvmLvNameBody1 $_LvmLvNameBody2 (${LVM_VG_MB}MB)." 0 0 "lvol" 2>${ANSWER} || return 0
|
|
LVM_LV_NAME=$(cat ${ANSWER})
|
|
done
|
|
|
|
# Create the final LV
|
|
lvcreate -l +100%FREE ${LVM_VG} -n ${LVM_LV_NAME} 2>$ERR
|
|
check_for_error "lvcreate -l +100%FREE ${LVM_VG} -n ${LVM_LV_NAME}" "$?"
|
|
NUMBER_LOGICAL_VOLUMES=$(( NUMBER_LOGICAL_VOLUMES - 1 ))
|
|
LVM=1
|
|
DIALOG " $_LvmCreateVG " --yesno "$_LvmCompBody" 0 0 && show_devices || return 0
|
|
}
|
|
|
|
check_lv_size() {
|
|
LV_SIZE_INVALID=0
|
|
chars=0
|
|
|
|
# Check to see if anything was actually entered and if first character is '0'
|
|
([[ ${#LVM_LV_SIZE} -eq 0 ]] || [[ ${LVM_LV_SIZE:0:1} -eq "0" ]]) && LV_SIZE_INVALID=1
|
|
|
|
# If not invalid so far, check for non numberic characters other than the last character
|
|
if [[ $LV_SIZE_INVALID -eq 0 ]]; then
|
|
while [[ $chars -lt $(( ${#LVM_LV_SIZE} - 1 )) ]]; do
|
|
[[ ${LVM_LV_SIZE:chars:1} != [0-9] ]] && LV_SIZE_INVALID=1 && return 0;
|
|
chars=$(( chars + 1 ))
|
|
done
|
|
fi
|
|
|
|
# If not invalid so far, check that last character is a M/m or G/g
|
|
if [[ $LV_SIZE_INVALID -eq 0 ]]; then
|
|
LV_SIZE_TYPE=$(echo ${LVM_LV_SIZE:$(( ${#LVM_LV_SIZE} - 1 )):1})
|
|
|
|
case $LV_SIZE_TYPE in
|
|
"m"|"M"|"g"|"G") LV_SIZE_INVALID=0 ;;
|
|
*) LV_SIZE_INVALID=1 ;;
|
|
esac
|
|
|
|
fi
|
|
|
|
# If not invalid so far, check whether the value is greater than or equal to the LV remaining Size.
|
|
# If not, convert into MB for VG space remaining.
|
|
if [[ ${LV_SIZE_INVALID} -eq 0 ]]; then
|
|
case ${LV_SIZE_TYPE} in
|
|
"G"|"g")
|
|
if [[ $(( $(echo ${LVM_LV_SIZE:0:$(( ${#LVM_LV_SIZE} - 1 ))}) * 1000 )) -ge ${LVM_VG_MB} ]]; then
|
|
LV_SIZE_INVALID=1
|
|
else
|
|
LVM_VG_MB=$(( LVM_VG_MB - $(( $(echo ${LVM_LV_SIZE:0:$(( ${#LVM_LV_SIZE} - 1 ))}) * 1000 )) ))
|
|
fi
|
|
;;
|
|
"M"|"m")
|
|
if [[ $(echo ${LVM_LV_SIZE:0:$(( ${#LVM_LV_SIZE} - 1 ))}) -ge ${LVM_VG_MB} ]]; then
|
|
LV_SIZE_INVALID=1
|
|
else
|
|
LVM_VG_MB=$(( LVM_VG_MB - $(echo ${LVM_LV_SIZE:0:$(( ${#LVM_LV_SIZE} - 1 ))}) ))
|
|
fi
|
|
;;
|
|
*) LV_SIZE_INVALID=1
|
|
;;
|
|
esac
|
|
|
|
fi
|
|
}
|
|
|
|
lvm_del_vg() {
|
|
# Generate list of VGs for selection
|
|
lvm_show_vg
|
|
|
|
# If no VGs, no point in continuing
|
|
if [[ $VG_LIST == "" ]]; then
|
|
DIALOG " $_ErrTitle " --msgbox "$_LvmVGErr" 0 0
|
|
return 0
|
|
fi
|
|
|
|
# Select VG
|
|
DIALOG " $_PrepLVM " --menu "$_LvmSelVGBody" 0 0 5 ${VG_LIST} 2>${ANSWER} || return 0
|
|
|
|
# Ask for confirmation
|
|
DIALOG " $_LvmDelVG " --yesno "$_LvmDelQ" 0 0
|
|
|
|
# if confirmation given, delete
|
|
if [[ $? -eq 0 ]]; then
|
|
check_for_error "delete lvm-VG $(cat ${ANSWER})"
|
|
vgremove -f $(cat ${ANSWER}) >/dev/null 2>&1
|
|
fi
|
|
}
|
|
|
|
lvm_del_all() {
|
|
LVM_PV=$(pvs -o pv_name --noheading 2>/dev/null)
|
|
LVM_VG=$(vgs -o vg_name --noheading 2>/dev/null)
|
|
LVM_LV=$(lvs -o vg_name,lv_name --noheading --separator - 2>/dev/null)
|
|
|
|
# Ask for confirmation
|
|
DIALOG " $_LvmDelLV " --yesno "$_LvmDelQ" 0 0
|
|
|
|
# if confirmation given, delete
|
|
if [[ $? -eq 0 ]]; then
|
|
for i in ${LVM_LV}; do
|
|
check_for_error "remove LV ${i}"
|
|
lvremove -f /dev/mapper/${i} >/dev/null 2>&1
|
|
done
|
|
|
|
for i in ${LVM_VG}; do
|
|
check_for_error "remove VG ${i}"
|
|
vgremove -f ${i} >/dev/null 2>&1
|
|
done
|
|
|
|
for i in ${LV_PV}; do
|
|
check_for_error "remove LV-PV ${i}"
|
|
pvremove -f ${i} >/dev/null 2>&1
|
|
done
|
|
fi
|
|
}
|
|
|
|
lvm_menu() {
|
|
DIALOG " $_PrepLVM $_PrepLVM2 " --infobox "$_PlsWaitBody" 0 0
|
|
sleep 1
|
|
lvm_detect
|
|
|
|
DIALOG " $_PrepLVM $_PrepLVM2 " --menu "$_LvmMenu" 0 0 4 \
|
|
"$_LvmCreateVG" "vgcreate -f, lvcreate -L -n" \
|
|
"$_LvmDelVG" "vgremove -f" \
|
|
"$_LvMDelAll" "lvrmeove, vgremove, pvremove -f" \
|
|
"$_Back" "-" 2>${ANSWER}
|
|
|
|
case $(cat ${ANSWER}) in
|
|
"$_LvmCreateVG") lvm_create ;;
|
|
"$_LvmDelVG") lvm_del_vg ;;
|
|
"$_LvMDelAll") lvm_del_all ;;
|
|
*) return 0 ;;
|
|
esac
|
|
}
|
|
|
|
mount_partitions() {
|
|
# Warn users that they CAN mount partitions without formatting them!
|
|
DIALOG " $_PrepMntPart " --msgbox "$_WarnMount1 '$_FSSkip' $_WarnMount2" 0 0
|
|
|
|
# LVM Detection. If detected, activate.
|
|
lvm_detect
|
|
|
|
# Ensure partitions are unmounted (i.e. where mounted previously), and then list available partitions
|
|
INCLUDE_PART='part\|lvm\|crypt'
|
|
umount_partitions
|
|
find_partitions
|
|
# Filter out partitions that have already been mounted and partitions that just contain crypt device
|
|
list_mounted > /tmp/.ignore_part
|
|
list_containing_crypt >> /tmp/.ignore_part
|
|
check_for_error "ignore crypted: $(list_containing_crypt)"
|
|
|
|
for part in $(cat /tmp/.ignore_part); do
|
|
delete_partition_in_list $part
|
|
done
|
|
|
|
# Identify and mount root
|
|
DIALOG " $_PrepMntPart " --menu "$_SelRootBody" 0 0 12 ${PARTITIONS} 2>${ANSWER} || return 0
|
|
PARTITION=$(cat ${ANSWER})
|
|
ROOT_PART=${PARTITION}
|
|
|
|
# Format with FS (or skip) -> # Make the directory and mount. Also identify LUKS and/or LVM
|
|
select_filesystem && mount_current_partition || return 0
|
|
|
|
# Identify and create swap, if applicable
|
|
make_swap
|
|
|
|
# Extra Step for VFAT UEFI Partition. This cannot be in an LVM container.
|
|
if [[ $SYSTEM == "UEFI" ]]; then
|
|
DIALOG " $_PrepMntPart " --menu "$_SelUefiBody" 0 0 12 ${PARTITIONS} 2>${ANSWER} || return 0
|
|
PARTITION=$(cat ${ANSWER})
|
|
UEFI_PART=${PARTITION}
|
|
|
|
# If it is already a fat/vfat partition...
|
|
if [[ $(fsck -N $PARTITION | grep fat) ]]; then
|
|
DIALOG " $_PrepMntPart " --yesno "$_FormUefiBody $PARTITION $_FormUefiBody2" 0 0 && {
|
|
mkfs.vfat -F32 ${PARTITION} >/dev/null 2>$ERR
|
|
check_for_error "mkfs.vfat -F32 ${PARTITION}" "$?"
|
|
}
|
|
else
|
|
mkfs.vfat -F32 ${PARTITION} >/dev/null 2>$ERR
|
|
check_for_error "mkfs.vfat -F32 ${PARTITION}" "$?"
|
|
fi
|
|
|
|
DIALOG " $_PrepMntPart " --radiolist "$_MntUefiBody" 0 0 2 \
|
|
"/boot" "" on \
|
|
"/boot/efi" "" off 2>${ANSWER}
|
|
|
|
[[ $(cat ${ANSWER}) != "" ]] && UEFI_MOUNT=$(cat ${ANSWER}) || return 0
|
|
|
|
mkdir -p ${MOUNTPOINT}${UEFI_MOUNT} 2>$ERR
|
|
check_for_error "create ${MOUNTPOINT}${UEFI_MOUNT}" "$?"
|
|
mount ${PARTITION} ${MOUNTPOINT}${UEFI_MOUNT} 2>$ERR
|
|
check_for_error "mount ${PARTITION} ${MOUNTPOINT}${UEFI_MOUNT}" "$?"
|
|
confirm_mount ${MOUNTPOINT}${UEFI_MOUNT}
|
|
fi
|
|
|
|
# All other partitions
|
|
while [[ $NUMBER_PARTITIONS > 0 ]]; do
|
|
DIALOG " $_PrepMntPart " --menu "$_ExtPartBody" 0 0 12 "$_Done" $"-" ${PARTITIONS} 2>${ANSWER} || return 0
|
|
PARTITION=$(cat ${ANSWER})
|
|
|
|
if [[ $PARTITION == $_Done ]]; then
|
|
return 0;
|
|
else
|
|
MOUNT=""
|
|
select_filesystem
|
|
|
|
# Ask user for mountpoint. Don't give /boot as an example for UEFI systems!
|
|
[[ $SYSTEM == "UEFI" ]] && MNT_EXAMPLES="/home\n/var" || MNT_EXAMPLES="/boot\n/home\n/var"
|
|
DIALOG " $_PrepMntPart $PARTITON " --inputbox "$_ExtPartBody1$MNT_EXAMPLES\n" 0 0 "/" 2>${ANSWER} || return 0
|
|
MOUNT=$(cat ${ANSWER})
|
|
|
|
# loop while the mountpoint specified is incorrect (is only '/', is blank, or has spaces).
|
|
while [[ ${MOUNT:0:1} != "/" ]] || [[ ${#MOUNT} -le 1 ]] || [[ $MOUNT =~ \ |\' ]]; do
|
|
# Warn user about naming convention
|
|
DIALOG " $_ErrTitle " --msgbox "$_ExtErrBody" 0 0
|
|
# Ask user for mountpoint again
|
|
DIALOG " $_PrepMntPart $PARTITON " --inputbox "$_ExtPartBody1$MNT_EXAMPLES\n" 0 0 "/" 2>${ANSWER} || return 0
|
|
MOUNT=$(cat ${ANSWER})
|
|
done
|
|
|
|
# Create directory and mount.
|
|
mount_current_partition
|
|
|
|
# Determine if a seperate /boot is used. 0 = no seperate boot, 1 = seperate non-lvm boot,
|
|
# 2 = seperate lvm boot. For Grub configuration
|
|
if [[ $MOUNT == "/boot" ]]; then
|
|
[[ $(lsblk -lno TYPE ${PARTITION} | grep "lvm") != "" ]] && LVM_SEP_BOOT=2 || LVM_SEP_BOOT=1
|
|
fi
|
|
fi
|
|
done
|
|
}
|