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mirror of https://github.com/libretro/Lakka-LibreELEC.git synced 2024-11-28 05:04:36 +00:00
Lakka-LibreELEC/projects/L4T/packages/busybox/scripts/init
GavinDarkglider 6fb5ad6fee
Cleanups, More LibreELEC Stuff, more permission fixes, Misc switch stuff. (#1930)
* libCEC: Update to 6.0.2

* L4T: Switch-bsp: Fix typos

* Switch: Fix all permission issues with running kodi as a non-root user.

* L4T: Switch: Minor code cleanups

* Add upower and libgudev so kodi can get battery stats

Upower was removed from libreELEC in 2013 with this commit: 3a130cd5009c8d3595b8afcde2421324572ce58b
This was a stupid choice as it is the only option in kodi for supplying any battery statitistics. Currently broken.
This patchset: https://github.com/xbmc/xbmc/pull/17327/commits for kodi seemingliy wants to fix the issue(Doesnt, is more of a new way to deal with dbus in general), but will still require that upower be available for battery.

* Switch: LibreELEC: Peripheral.Joystick: Fix Add Patches from PR's upstream to fix issues with udev devices

* Switch: LibreElec: Peripheral.Joystick: Add Nintendo Switch udev joystick mappings

* Switch: LibreELEC: Peripheral.Joystick: Force Udev controller driver as default.
2024-02-17 18:33:15 +02:00

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#!/bin/sh
# SPDX-License-Identifier: GPL-2.0-or-later
# Copyright (C) 2010-2011 Roman Weber (roman@openelec.tv)
# Copyright (C) 2012 Yann Cézard (eesprit@free.fr)
# Copyright (C) 2009-2014 Stephan Raue (stephan@openelec.tv)
# Copyright (C) 2016-present Team LibreELEC (https://libreelec.tv)
# create directories
/usr/bin/busybox mkdir -p /dev
/usr/bin/busybox mkdir -p /proc
/usr/bin/busybox mkdir -p /sys
/usr/bin/busybox mkdir -p /tmp
/usr/bin/busybox mkdir -p /flash
/usr/bin/busybox mkdir -p /sysroot
/usr/bin/busybox mkdir -p /storage
/usr/bin/busybox mkdir -p /run
# temp mountpoint for updates
/usr/bin/busybox mkdir -p /update
# mount all needed special filesystems
/usr/bin/busybox mount -t devtmpfs devtmpfs /dev
/usr/bin/busybox mount -t proc proc /proc
/usr/bin/busybox mount -t sysfs sysfs /sys
# /run options have to match what systemd uses by default
/usr/bin/busybox mount -t tmpfs -o mode=777,size=20%,nr_inodes=800k,nosuid,nodev,strictatime tmpfs /run
UPDATE_ROOT=/storage/.update
UPDATE_DIR="$UPDATE_ROOT"
UPDATE_KERNEL="KERNEL"
UPDATE_SYSTEM="SYSTEM"
IMAGE_KERNEL="@KERNEL_NAME@"
IMAGE_SYSTEM="SYSTEM"
BOOT_STEP="start"
MD5_FAILED="0"
RUN_FSCK="yes"
RUN_FSCK_DISKS=""
SYSLINUX_DEFAULT=""
GRUB_DEFAULT=""
NBD_DEVS="0"
FLASH_FREE_MIN="5"
LIVE="no"
BREAK_TRIPPED="no"
BIGFONT="1080"
# Get a serial number if present (eg. RPi) otherwise use MAC address from eth0
MACHINE_UID="$(awk '/^Serial/{s='0000000' $3; print substr(s, length(s) - 7)}' /proc/cpuinfo)"
[ -z "$MACHINE_UID" ] && MACHINE_UID="$(cat /sys/class/net/eth0/address 2>/dev/null | tr -d :)"
# common functions
. /functions
# script functions
progress() {
if test "$PROGRESS" = "yes"; then
echo "### $1 ###" >&2
fi
}
debug_msg() {
echo "$1" >&$SILENT_OUT
}
debug_shell() {
echo "### Starting debugging shell for boot step: $BOOT_STEP... type exit to quit ###"
showcursor
setsid cttyhack sh
}
error() {
# Display fatal error message
# $1:action which caused error, $2:message
# Send debug_shell output to stderr, in case caller is redirecting/consuming stdout
# Return exitcode=1 so that called may detect when an error has occurred
echo "*** Error in $BOOT_STEP: $1: $2 ***" >&2
debug_shell >&2
return 1
}
break_after() {
# Start debug shell after boot step $1, and all subsequent steps
if [ $BREAK_TRIPPED == yes ]; then
debug_shell
else
case $BREAK in
all|*$1*)
BREAK_TRIPPED=yes
debug_shell
;;
esac
fi
}
# Mount handlers
# All handlers take the following parameters:
# $1:target, $2:mountpoint, $3:mount options, [$4:fs type]
mount_common() {
# Common mount handler, handles block devices and filesystem images
MOUNT_OPTIONS="-o $3"
[ -n "$4" ] && MOUNT_OPTIONS="-t $4 $MOUNT_OPTIONS"
for i in 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15; do
ERR_ENV=1
mount $MOUNT_OPTIONS $1 $2 >&$SILENT_OUT 2>&1
[ "$?" -eq "0" ] && ERR_ENV=0 && break
usleep 1000000
done
[ "$ERR_ENV" -eq "0" ] && return 0
error "mount_common" "Could not mount $1"
}
get_iscsistart_options() {
# Convert kernel commandline ISCSI= options to iscsistart options
IFS_SAVE="$IFS"
IFS=,
for arg in $1; do
val="${arg#*=}"
case "$arg" in
iscsi_initiator=*)
option="-i"
;;
iscsi_target_name=*)
option="-t"
;;
iscsi_target_ip=*)
option="-a"
;;
iscsi_target_port=*)
option="-p"
;;
iscsi_target_group=*)
option="-g"
;;
iscsi_username=*)
option="-u"
;;
iscsi_password=*)
option="-w"
;;
iscsi_in_username=*)
option="-U"
;;
iscsi_in_password=*)
option="-W"
;;
esac
echo "$option $val"
done
IFS="$IFS_SAVE"
}
mount_iscsi() {
# Mount iSCSI target
ISCSI_DEV="${1##*,}"
ISCSI_OPTIONS="${1%,*}"
if [ ! -f "/usr/sbin/iscsistart" ]; then
error "iscsistart" "iSCSI support not available"
fi
if [ "$ISCSI_OPTIONS" = "auto" ]; then
progress "Network configuration based on iBFT"
/usr/sbin/iscsistart -N >&$SILENT_OUT 2>&1 || error "iscsistart" "Unable to configure network"
progress "iSCSI auto connect based on iBFT"
/usr/sbin/iscsistart -b >&$SILENT_OUT 2>&1 || error "iscsistart" "Unable to auto connect"
else
/usr/sbin/iscsistart $(get_iscsistart_options "$ISCSI_OPTIONS") >&$SILENT_OUT 2>&1 || error "iscsistart" "Unable to connect to ISCSI target"
fi
mount_common "$ISCSI_DEV" "$2" "$3" "$4"
}
mount_nbd() {
# Mount NBD device
NBD_SERVER="${1%%:*}"
NBD_PORT="${1#*:}"
NBD_DEV="/dev/nbd$NBD_DEVS"
nbd-client $NBD_SERVER $NBD_PORT $NBD_DEV >&$SILENT_OUT 2>&1 || error "nbd-client" "Could not connect to NBD server $1"
mount_common "$NBD_DEV" "$2" "$3" "$4"
NBD_DEVS=$(( NBD_DEVS + 1 ))
}
mount_nfs() {
# Mount NFS export
NFS_EXPORT="${1%%,*}"
NFS_OPTIONS="${1#*,}"
[ "$NFS_OPTIONS" = "$1" ] && NFS_OPTIONS=
mount_common "$NFS_EXPORT" "$2" "$3,nolock,rsize=32768,wsize=32768,$NFS_OPTIONS" "nfs"
}
mount_ubifs() {
mount_common "$1" "$2" "$3" "ubifs"
}
mount_part() {
# Mount a local or network filesystem
# $1:[TYPE=]target, $2:mountpoint, $3:mount options, [$4:fs type]
progress "mount filesystem $1 ..."
MOUNT_TARGET="${1#*=}"
case $1 in
/dev/ubi*)
MOUNT_CMD="mount_ubifs"
MOUNT_TARGET="$1"
RUN_FSCK="no"
;;
LABEL=*|UUID=*|/*)
MOUNT_CMD="mount_common"
MOUNT_TARGET="$1"
;;
ISCSI=*)
MOUNT_CMD="mount_iscsi"
;;
NBD=*)
MOUNT_CMD="mount_nbd"
;;
NFS=*)
MOUNT_CMD="mount_nfs"
;;
*)
error "mount_part" "Unknown filesystem $1"
;;
esac
# Substitute unique identifier if available or remove placeholder
MOUNT_TARGET="${MOUNT_TARGET//@UID@/$MACHINE_UID}"
$MOUNT_CMD "$MOUNT_TARGET" "$2" "$3" "$4"
}
mount_sysroot() {
if [ "$SYSTEM_TORAM" = "yes" ]; then
cp /flash/$IMAGE_SYSTEM /dev/$IMAGE_SYSTEM
mount_part "/dev/$IMAGE_SYSTEM" "/sysroot" "ro,loop"
else
mount_part "/flash/$IMAGE_SYSTEM" "/sysroot" "ro,loop"
fi
if [ -f /flash/post-sysroot.sh ]; then
. /flash/post-sysroot.sh
fi
}
# mount the specified SYSTEM file and output arch from /etc/os-release
get_project_arch() {
if [ -f ${1}/etc/os-release ]; then
. ${1}/etc/os-release
echo "${OPENELEC_ARCH:-${LIBREELEC_ARCH}}"
fi
}
# If the project/arch of current matches the update, then it is considered compatible.
# Otherwise, mount the update SYSTEM partition and, if canupdate.sh is available,
# call the script to determine if the current update file can be applied on to the
# current system - 0 means it is compatible, non-zero that it is not compatible.
is_compatible() {
local result=1
if [ "${1}" = "${2}" ]; then
result=0
else
if [ -f /update/usr/share/bootloader/canupdate.sh ]; then
sh /update/usr/share/bootloader/canupdate.sh "${1}" "${2}" && result=0
fi
fi
return ${result}
}
# determine if the new SYSTEM file is compatible with the current SYSTEM file
check_is_compatible() {
local update_filename="${1}"
local old_project_arch new_project_arch
old_project_arch="$(get_project_arch "/sysroot")" || return
new_project_arch="$(get_project_arch "/update")" || return
# If old or new project/arch isn't available then could be very old (pre-/etc/os-release) build - have to trust it
if [ -n "${old_project_arch}" -a -n "${new_project_arch}" ]; then
# If the old project/arch is not compatible with the new project/arch then abort...
if ! is_compatible "${old_project_arch}" "${new_project_arch}"; then
echo ""
echo "ERROR: $(basename "${update_filename}") is not compatible with ${old_project_arch} hardware - update cancelled."
echo ""
echo "Current system: ${old_project_arch}"
echo "Update system: ${new_project_arch}"
echo ""
echo "Create $UPDATE_ROOT/.nocompat to disable compatibility checks and risk a non-booting system."
echo ""
return 1
fi
fi
return 0
}
update_file() {
if [ -f "$UPDATE_DIR/$2" -a -f "$3" ]; then
if [ ! "$FAT32_BOOT" = "yes" ]; then
mount -o remount,rw /flash
fi
rm -f "$3"
StartProgress percent "Updating $1... " "$3" $(stat -t "$UPDATE_DIR/$2" | awk '{print $2}')
# use dd here with conv=fsync so that all writes are non-buffered
# ensuring accurate progress - take the sync hit during the
# transfer, rather than when flushing file buffers after the progress
# meter declares the transfer already complete
dd if=$UPDATE_DIR/$2 of=$3 bs=1M conv=fsync 2>/dev/null
StopProgress
# loopback file needs writable /flash all the time
if [ ! "$FAT32_BOOT" = "yes" ]; then
if [ "${disk%%=*}" != "FILE" ]; then
mount -o remount,ro /flash
fi
fi
sync
fi
}
update_partition() {
local result
if [ -f "$UPDATE_DIR/$2" -a -b "$3" ]; then
StartProgress spinner "Updating $1... "
result="$(dd if="$UPDATE_DIR/$2" of="$3" 2>&1)"
StopProgress "done"
echo "${result}"
fi
}
update_bootloader() {
local result
export BOOT_ROOT="/flash"
export SYSTEM_ROOT="/update"
if [ -f $SYSTEM_ROOT/usr/share/bootloader/update.sh ]; then
StartProgress spinner "Updating Boot Files... "
result="$(sh $SYSTEM_ROOT/usr/share/bootloader/update.sh 2>&1)"
sync
StopProgress "done"
[ -n "${result}" ] && echo "${result}"
fi
}
set_consolefont() {
local vres
progress "Set console font"
if [ -e /dev/fb0 ]; then
vres="$(fbset 2>/dev/null | awk '/geometry/ { print $3 }')"
if [ $vres -gt "$BIGFONT" ]; then
setfont -C /dev/tty0 ter-v32b.psf
fi
fi
}
load_splash() {
local set_default_res=no
local vres
if [ ! "$SPLASH" = "no" ]; then
progress "Loading bootsplash"
if [ -e /dev/fb0 ]; then
# Set framebuffer to a custom resolution and/or fallback to default resolution (1024x768-32), if required.
if [ ! "$SWITCH_FRAMEBUFFER" = "no" ]; then
if [ "$SWITCH_FRAMEBUFFER" = "1080" ]; then
SWITCH_FRAMEBUFFER="1920 1080 1920 1080 32"
elif [ "$SWITCH_FRAMEBUFFER" = "720" ]; then
SWITCH_FRAMEBUFFER="1280 720 1280 720 32"
fi
# Try setting a custom framebuffer resolution
if [ ! "${SWITCH_FRAMEBUFFER:-yes}" = "yes" ]; then
fbset -g $SWITCH_FRAMEBUFFER 2>/dev/null && set_default_res=no
fi
# Set a default resolution if required
if [ "$set_default_res" = "yes" ]; then
fbset -g 1024 768 1024 768 32
fi
fi
# load splash
if [ -f /splash/splash.conf ]; then
. /splash/splash.conf
fi
# Select splash image based on current native resolution
if [ -z "$SPLASHIMAGE" ]; then
vres="$(fbset 2>/dev/null | awk '/geometry/ { print $3 }')"
for s in /flash/oemsplash-${vres}.png \
/flash/oemsplash-1080.png \
/flash/oemsplash.png \
/splash/splash-${vres}.png \
/splash/splash-1080.png \
; do
if [ -f "${s}" ]; then
SPLASHIMAGE="${s}"
break
fi
done
fi
if [ -n "$SPLASHIMAGE" -a -f "$SPLASHIMAGE" ]; then
ply-image $SPLASHIMAGE > /dev/null 2>&1
fi
debug_msg "Framebuffer vertical res: $vres"
debug_msg "Framebuffer splash image: $SPLASHIMAGE"
fi
fi
}
do_reboot() {
echo "System reboots now..."
# syncing filesystem
sync
# unmount filesystems
if /usr/bin/busybox mountpoint -q /flash ; then
/usr/bin/busybox umount /flash
fi
if /usr/bin/busybox mountpoint -q /storage ; then
/usr/bin/busybox umount /storage
fi
usleep 2000000
/usr/bin/busybox reboot
}
force_fsck() {
echo "Filesystem corruption has been detected!"
echo "To prevent an automatic repair attempt continuing,"
echo "press any key or power off your system within the next 120 seconds"
echo ""
read -t120 -n1
# The exit status is 0 if input is available
# The exit status is greater than 128 if the timeout is exceeded
if [ $? -ne 0 -o $? -gt 128 ]; then
echo "Repairing filesystem..."
echo ""
/usr/sbin/fsck -T -M -y $RUN_FSCK_DISKS
FSCK_RET=$?
if [ $(( $FSCK_RET & 8 )) -eq 8 ]; then
# fubar
echo "Forced fsck failed. Your system is broken beyond repair"
echo "Please re-install @DISTRONAME@"
echo ""
echo "Press enter to shutdown now"
echo ""
read fubar
poweroff
fi
do_reboot
else
echo "Shutting down..."
sleep 5
sync
poweroff
fi
}
check_disks() {
if [ "$RUN_FSCK" = "yes" -a -n "$RUN_FSCK_DISKS" ]; then
progress "Checking disk(s): $RUN_FSCK_DISKS"
echo "Checking disk(s): $RUN_FSCK_DISKS" >/dev/kmsg
for i in 20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0; do
/usr/sbin/fsck -T -M -p -a $RUN_FSCK_DISKS >/dev/fsck.latest 2>&1
FSCK_RET=$?
cat /dev/fsck.latest >>/dev/fsck.log
# FSCK_RET is the bit-wise OR of the exit codes for each filesystem that is checked.
if [ $FSCK_RET -ge 16 ]; then
progress "General error, continuing..."
break
elif [ $(( $FSCK_RET & 8 )) -eq 8 ]; then
# device not found
if [ $i -eq 0 ]; then
progress "Device not found, continuing..."
else
usleep 500000
fi
elif [ $(( $FSCK_RET & 4 )) -eq 4 ]; then
# errors left
force_fsck
elif [ $(( $FSCK_RET & 2 )) -eq 2 ]; then
# reboot needed
echo "Filesystem repaired, reboot needed..."
do_reboot
elif [ $(( $FSCK_RET & 1 )) -eq 1 ]; then
# filesystem errors corrected
progress "Filesystem errors corrected , continuing..."
break
elif [ $FSCK_RET -eq 0 ]; then
# no errors found
progress "No filesystem errors found, continuing..."
break
fi
done
while read line; do
[ -n "$line" ] && echo "fsck: ${line::160}" >/dev/kmsg
done </dev/fsck.latest
rm -f /dev/fsck.latest
fi
}
wakeonlan() {
if [ "$STORAGE_NETBOOT" = "yes" ]; then
wol_ip=${disk%:*}
wol_ip=${wol_ip#*=}
elif [ "$FLASH_NETBOOT" = "yes" ]; then
wol_ip=${boot%:*}
wol_ip=${wol_ip#*=}
else
return 0
fi
if [ -n "$wol_ip" -a -n "$wol_mac" -a -n "$wol_wait" ]; then
progress "Sending Magic Packet (WOL) if needed"
if ! ping -q -c 2 "$wol_ip" &>/dev/null; then
ether-wake "$wol_mac"
StartProgress countdown "WOL magic packet sent to $wol_ip, waiting $wol_wait seconds... " $wol_wait "done"
fi
fi
}
mount_flash() {
progress "Mounting flash"
wakeonlan
if [ ! "$FAT32_BOOT" = "yes" ]; then
mount_part "$boot" "/flash" "ro,noatime"
else
mount_part "$boot" "/flash" "rw,noatime,umask=0000"
fi
if [ -f /flash/post-flash.sh ]; then
. /flash/post-flash.sh
fi
}
cleanup_flash() {
progress "Cleaning up flash (if required)"
if [ -f /flash/pieeprom.bin -o -f /flash/pieeprom.upd -o -f /flash/vl805.bin ]; then
mount -o remount,rw /flash
rm -f /flash/pieeprom.bin /flash/pieeprom.upd /flash/pieeprom.sig
rm -f /flash/vl805.bin /flash/vl805.sig
rm -f /flash/recovery.bin /flash/recovery.[0-9][0-9][0-9] /flash/RECOVERY.[0-9][0-9][0-9]
mount -o remount,ro /flash
fi
}
mount_storage() {
progress "Mounting storage"
if [ "$LIVE" = "yes" ]; then
# mount tmpfs and exit early. disk=xx is not allowed in live mode
mount -t tmpfs none /storage
return
fi
wakeonlan
if [ "$FAT32_BOOT" = "yes" ]; then
DISTRO=${IMAGE_SYSTEM%'/'*}
mkdir -p /flash/$DISTRO/storage
mount --bind /flash/$DISTRO/storage /storage
elif [ -n "$disk" ]; then
if [ -n "$OVERLAY" ]; then
OVERLAY_DIR=$(cat /sys/class/net/eth0/address | tr -d :)
mount_part "$disk" "/storage" "rw,noatime"
mkdir -p /storage/$OVERLAY_DIR
umount /storage
# split $disk into $target,$options so we can append $OVERLAY_DIR
options="${disk#*,}"
target="${disk%%,*}"
if [ "$options" = "$disk" ]; then
disk="$target/$OVERLAY_DIR"
else
disk="$target/$OVERLAY_DIR,$options"
fi
fi
if [ -f /flash/mount-storage.sh ]; then
. /flash/mount-storage.sh
else
mount_part "$disk" "/storage" "rw,noatime"
fi
else
# /storage should always be writable
mount -t tmpfs none /storage
fi
}
# Make last bootloader label (installer, live, run etc.) as the new default
update_bootmenu() {
local crnt_default
if [ -n "$SYSLINUX_DEFAULT" -a -f /flash/syslinux.cfg ]; then
if grep -q "^LABEL $SYSLINUX_DEFAULT\$" /flash/syslinux.cfg; then
crnt_default="$(awk '/^DEFAULT/ {print $2}' /flash/syslinux.cfg)"
if [ ! "$crnt_default" = "$SYSLINUX_DEFAULT" ]; then
progress "Updating /flash/syslinux.cfg [$crnt_default -> $SYSLINUX_DEFAULT]"
mount -o remount,rw /flash
sed -e "s/^SAY Wait for .* mode/SAY Wait for ${SYSLINUX_DEFAULT} mode/" -i /flash/syslinux.cfg
sed -e "s/^DEFAULT .*/DEFAULT $SYSLINUX_DEFAULT/" -i /flash/syslinux.cfg
rm -f /flash/EFI/BOOT/syslinux.cfg
mount -o remount,ro /flash
fi
fi
fi
if [ -n "$GRUB_DEFAULT" -a -f /flash/EFI/BOOT/grub.cfg ]; then
if grep -q "^menuentry \"$GRUB_DEFAULT\"" /flash/EFI/BOOT/grub.cfg; then
crnt_default="$(awk '/^set default/ {print substr($2,9,19)}' /flash/EFI/BOOT/grub.cfg)"
if [ ! "$crnt_default" = "\"$GRUB_DEFAULT\"" ]; then
progress "Updating /flash/EFI/BOOT/grub.cfg [$crnt_default -> \"$GRUB_DEFAULT\"]"
mount -o remount,rw /flash
sed -e "s/^set default=.*/set default=\"$GRUB_DEFAULT\"/" -i /flash/EFI/BOOT/grub.cfg
rm -f /flash/grub.cfg
mount -o remount,ro /flash
fi
fi
fi
}
check_out_of_space() {
if [ "$(df /storage | awk '/[0-9]%/{print $4}')" -eq "0" ]; then
echo ""
echo "The $1 is corrupt, or there is not enough"
echo "free space on /storage to complete the update!"
echo ""
echo "Please free up space on your /storage partition"
echo "by deleting unecessary files, then try again."
echo ""
return 0
else
echo ""
echo "The $1 is corrupt/invalid!"
echo ""
return 1
fi
}
do_cleanup() {
StartProgress spinner "Cleaning up... "
if mountpoint -q /update; then
umount /update
fi
if [ -d $UPDATE_ROOT/.tmp/mnt ]; then
if mountpoint -q $UPDATE_ROOT/.tmp/mnt ; then
# busybox umount deletes loop device automatically
umount $UPDATE_ROOT/.tmp/mnt
fi
[ -n $LOOP ] && losetup -d $LOOP &>/dev/null
fi
[ -f "$UPDATE_TAR" ] && rm -f "$UPDATE_TAR" &>/dev/null
[ -f "$UPDATE_IMG_GZ" ] && rm -f "$UPDATE_IMG_GZ" &>/dev/null
[ -f "$UPDATE_IMG" ] && rm -f "$UPDATE_IMG" &>/dev/null
rm -rf $UPDATE_ROOT/.tmp &>/dev/null
rm -rf $UPDATE_ROOT/[0-9a-zA-Z]* &>/dev/null
rm -f $UPDATE_ROOT/.nocheck $UPDATE_ROOT/.nocompat &>/dev/null
sync
StopProgress "done"
}
check_update() {
progress "Checking for updates"
UPDATE_TAR=$(ls -1 "$UPDATE_DIR"/*.tar 2>/dev/null | head -n 1)
UPDATE_IMG_GZ=$(ls -1 "$UPDATE_DIR"/*.img.gz 2>/dev/null | head -n 1)
UPDATE_IMG=$(ls -1 "$UPDATE_DIR"/*.img 2>/dev/null | head -n 1)
if ! [ -f "$UPDATE_DIR/$UPDATE_KERNEL" -a -f "$UPDATE_DIR/$UPDATE_SYSTEM" ] &&
! [ -f "$UPDATE_TAR" -o -f "$UPDATE_IMG_GZ" -o -f "$UPDATE_IMG" ]; then
return 0
fi
if [ "$UPDATE_DISABLED" = "yes" ]; then
echo "Updating is not supported on netboot"
do_cleanup
StartProgress countdown "Normal startup in 10s... " 10 "NOW"
return 0
fi
if [ -d $UPDATE_DIR/.tmp ]; then
echo "Failed update detected - performing recovery."
echo ""
do_cleanup
StartProgress countdown "Normal startup in 10s... " 10 "NOW"
return 0
fi
mkdir -p $UPDATE_DIR/.tmp &>/dev/null
sync
echo "UPDATE IN PROGRESS"
echo ""
echo "Please do not reboot or turn off your @DISTRONAME@ device!"
echo ""
if [ -f "$UPDATE_TAR" ]; then
TARRESULT="0"
echo "Found new .tar archive"
UPDATE_FILENAME="$UPDATE_TAR"
StartProgress spinner "Extracting contents of archive... "
tar -xf "$UPDATE_TAR" -C $UPDATE_DIR/.tmp 1>/dev/null 2>/tmp/tarresult.txt || TARRESULT="1"
if [ "${TARRESULT}" -eq "0" ]; then
if [ "$FAT32_BOOT" = "yes" ]; then
mv $UPDATE_DIR/.tmp/* $UPDATE_DIR &>/dev/null
UPDATE_DIR=${UPDATE_TAR%.*}
else
mv $UPDATE_DIR/.tmp/*/target/* $UPDATE_DIR &>/dev/null
fi
sync
StopProgress "done"
else
StopProgress "FAILED"
echo "Failed to extract contents of archive file!"
echo "tar result: '$(cat /tmp/tarresult.txt)'"
check_out_of_space "archive"
do_cleanup
StartProgress countdown "Normal startup in 30s... " 30 "NOW"
return 0
fi
elif [ -f "$UPDATE_IMG_GZ" -o -f "$UPDATE_IMG" ]; then
mkdir -p $UPDATE_DIR/.tmp/mnt &>/dev/null
IMG_FILE="$UPDATE_DIR/.tmp/update.img"
GZRESULT="0"
if [ -f "$UPDATE_IMG_GZ" ]; then
echo "Found new compressed image file"
UPDATE_FILENAME="$UPDATE_IMG_GZ"
StartProgress spinner "Decompressing image file... "
gunzip -d -c "$UPDATE_IMG_GZ" 1>$IMG_FILE 2>/tmp/gzresult.txt || GZRESULT="1"
sync
[ "${GZRESULT}" -eq "0" ] && StopProgress "OK" || StopProgress "FAILED"
if [ "${GZRESULT}" -eq "1" ]; then
echo "Failed to decompress image file!"
echo "gunzip result: '$(cat /tmp/gzresult.txt)'"
check_out_of_space "compressed image"
do_cleanup
StartProgress countdown "Normal startup in 30s... " 30 "NOW"
return 0
fi
else
echo "Found new image file"
UPDATE_FILENAME="$UPDATE_IMG"
mv "$UPDATE_IMG" $IMG_FILE
fi
LOOP=$(losetup -f)
LOOP_NUM=$(echo $LOOP | sed 's|/dev/loop||')
mknod $LOOP b 7 $LOOP_NUM &>/dev/null
losetup $LOOP $IMG_FILE
# check for MBR partititon
OFFSET=$(fdisk -u -l $LOOP 2>/dev/null | awk '/^[ ]*Device/{part=1; next}; part{if ($2 == "*") {print $5} else {print $4} ; exit}')
if [ -z "$OFFSET" ]; then
# check for GPT partititon
OFFSET=$(fdisk -u -l $LOOP 2>/dev/null | awk '/^Number/{part=1; next}; part{print $2; exit}')
if [ -z "$OFFSET" ]; then
echo "Could not find a valid system partition in image file!"
do_cleanup
StartProgress countdown "Normal startup in 10s... " 10 "NOW"
return 0
fi
fi
SECTOR_SIZE=$(cat /sys/devices/virtual/block/loop${LOOP_NUM}/queue/hw_sector_size)
losetup -d $LOOP
sync
OFFSET=$(($OFFSET * $SECTOR_SIZE))
# use losetup because busybox mount does not support the -o offset option
echo "Mounting system partition..."
losetup -o $OFFSET $LOOP $IMG_FILE
mount -o ro,loop $LOOP $UPDATE_DIR/.tmp/mnt
# don't make temporary files but instead copy
# directly from mountpoint to /flash
UPDATE_DIR=$UPDATE_ROOT/.tmp/mnt
UPDATE_KERNEL="@KERNEL_NAME@"
else
UPDATE_FILENAME="$UPDATE_DIR/$UPDATE_SYSTEM"
fi
sync
if [ ! "$FAT32_BOOT" = "yes" ]; then
if [ ! -b "/$IMAGE_KERNEL" -a ! -f "/flash/$IMAGE_KERNEL" ] || [ ! -f "/flash/$IMAGE_SYSTEM" ]; then
echo "Missing (target) ${IMAGE_KERNEL} or ${IMAGE_SYSTEM}!"
do_cleanup
StartProgress countdown "Normal startup in 30s... " 30 "NOW"
return 0
fi
else
if [ ! -f "/flash/$IMAGE_KERNEL" ] || [ ! -f "/flash/$IMAGE_SYSTEM" ]; then
echo "Missing (target) ${IMAGE_KERNEL} or ${IMAGE_SYSTEM}!"
do_cleanup
StartProgress countdown "Normal startup in 30s... " 30 "NOW"
return 0
fi
fi
if [ "$FAT32_BOOT" = "yes" ]; then
UPDATE_KERNEL=$IMAGE_KERNEL
UPDATE_SYSTEM=$IMAGE_SYSTEM
fi
if [ ! -f "$UPDATE_DIR/$UPDATE_KERNEL" -o ! -f "$UPDATE_DIR/$UPDATE_SYSTEM" ]; then
echo "Missing (source) ${UPDATE_KERNEL} or ${UPDATE_SYSTEM}!"
do_cleanup
StartProgress countdown "Normal startup in 30s... " 30 "NOW"
return 0
fi
# check md5 sums if .nocheck doesn't exist
if [ ! -f "$UPDATE_ROOT/.nocheck" -a ! "$FAT32_BOOT" = "yes" ]; then
if [ -f "$UPDATE_DIR/${UPDATE_KERNEL}.md5" -a -f "$UPDATE_DIR/${UPDATE_SYSTEM}.md5" ]; then
# *.md5 size-check
if [ ! -s "$UPDATE_DIR/${UPDATE_KERNEL}.md5" -o ! -s "$UPDATE_DIR/${UPDATE_SYSTEM}.md5" ]; then
echo "Zero-sized .md5 file!"
MD5_FAILED="1"
else
sed "s#target/KERNEL#$UPDATE_DIR/$UPDATE_KERNEL#g" "$UPDATE_DIR/${UPDATE_KERNEL}.md5" >"$UPDATE_ROOT/${UPDATE_KERNEL}.check.md5"
sed "s#target#$UPDATE_DIR#g" "$UPDATE_DIR/${UPDATE_SYSTEM}.md5" >"$UPDATE_ROOT/${UPDATE_SYSTEM}.check.md5"
StartProgress spinner "Checking ${UPDATE_KERNEL}.md5... "
if md5sum -sc "$UPDATE_ROOT/${UPDATE_KERNEL}.check.md5"; then
StopProgress "OK"
else
StopProgress "FAILED"
MD5_FAILED="1"
fi
StartProgress spinner "Checking ${UPDATE_SYSTEM}.md5... "
if md5sum -sc "$UPDATE_ROOT/${UPDATE_SYSTEM}.check.md5"; then
StopProgress "OK"
else
StopProgress "FAILED"
MD5_FAILED="1"
fi
fi
else
echo "Missing ${UPDATE_KERNEL}.md5 or ${UPDATE_SYSTEM}.md5!"
MD5_FAILED="1"
fi
if [ "$MD5_FAILED" -eq "1" ]; then
echo "md5 check failed!"
do_cleanup
StartProgress countdown "Normal startup in 30s... " 30 "NOW"
return 0
fi
fi
mount_part "$UPDATE_DIR/$UPDATE_SYSTEM" "/update" "ro,loop"
# Verify that the new update is compatible with the current system - this should avoid creating
# non-booting systems after (for example) an RPi tar is incorrectly applied to an RPi2 system.
if [ ! -f "$UPDATE_ROOT/.nocompat" ]; then
if ! check_is_compatible "$UPDATE_FILENAME"; then
do_cleanup
StartProgress countdown "Normal startup in 60s... " 60 "NOW"
return 0
fi
fi
# get sizes
FLASH_FREE=$(df /flash/ | awk '/[0-9]%/{print $4}')
FLASH_FREE=$(( $FLASH_FREE * 1024 ))
# Disregard kernel size if it's a a block device
if [ ! -b "/$IMAGE_KERNEL" ]; then
OLD_KERNEL=$(stat -t "/flash/$IMAGE_KERNEL" | awk '{print $2}')
else
OLD_KERNEL="0"
fi
OLD_SYSTEM=$(stat -t "/flash/$IMAGE_SYSTEM" | awk '{print $2}')
NEW_KERNEL=$(stat -t "$UPDATE_DIR/$UPDATE_KERNEL" | awk '{print $2}')
NEW_SYSTEM=$(stat -t "$UPDATE_DIR/$UPDATE_SYSTEM" | awk '{print $2}')
# old KERNEL+SYSTEM+free space - new KERNEL+SYSTEM must be higher than 5MB
# at least 5MB free after update
TMP_SIZE=$((OLD_KERNEL + OLD_SYSTEM + FLASH_FREE - NEW_KERNEL - NEW_SYSTEM))
FLASH_FREE_MIN=$((FLASH_FREE_MIN * 1024 * 1024))
if [ $TMP_SIZE -ge $FLASH_FREE_MIN ]; then
echo "Checking size: OK"
else
echo "Checking size: FAILED"
echo ""
echo "Your System (FAT) partition is too small for this update,"
echo "and there is not enough space for the update to be installed!"
echo ""
echo "You must re-install your system using the disk image of a"
echo "current release, or you must re-size your existing partitions"
echo "so that the System (FAT) partition is at least 512MB in size."
echo ""
do_cleanup
StartProgress countdown "Normal startup in 60s... " 60 "NOW"
return 0
fi
# all ok, update
if [ -b "/$IMAGE_KERNEL" ]; then
update_partition "Kernel" "$UPDATE_KERNEL" "/$IMAGE_KERNEL"
else
update_file "Kernel" "$UPDATE_KERNEL" "/flash/$IMAGE_KERNEL"
fi
umount /sysroot
update_file "System" "$UPDATE_SYSTEM" "/flash/$IMAGE_SYSTEM"
update_bootloader
do_cleanup
do_reboot
}
prepare_sysroot() {
progress "Preparing system"
mount --move /flash /sysroot/flash
mount --move /storage /sysroot/storage
if [ ! "$FAT32_BOOT" = "yes" ]; then
if [ ! -d "/sysroot/usr/lib/kernel-overlays/base/lib/modules/$(uname -r)/" -a -f "/sysroot/usr/lib/systemd/systemd" ]; then
echo ""
echo "NEVER TOUCH boot= in syslinux.conf / cmdline.txt!"
echo "If you don't know what you are doing,"
echo "your installation is now broken."
echo ""
StartProgress countdown "Normal startup in 60s... " 60 "NOW"
fi
fi
[ -f "/sysroot/usr/lib/systemd/systemd" ] || error "final_check" "Could not find systemd!"
}
# Do init tasks to bring up system
# hide kernel log messages on console
echo '1 4 1 7' > /proc/sys/kernel/printk
# run platform_init script if exists
if [ -f "./platform_init" ]; then
./platform_init
fi
# clear screen and hide cursor
clear
hidecursor
# parse command line arguments
for arg in $(cat /proc/cmdline); do
case $arg in
BOOT_IMAGE=*)
IMAGE_KERNEL="${arg#*=}"
[ "${IMAGE_KERNEL:0:1}" = "/" ] && IMAGE_KERNEL="${IMAGE_KERNEL:1}"
;;
SYSTEM_IMAGE=*)
IMAGE_SYSTEM="${arg#*=}"
[ "${IMAGE_SYSTEM:0:1}" = "/" ] && IMAGE_SYSTEM="${IMAGE_SYSTEM:1}"
;;
boot=*)
boot="${arg#*=}"
case $boot in
ISCSI=*|NBD=*|NFS=*)
UPDATE_DISABLED=yes
FLASH_NETBOOT=yes
;;
/dev/*|LABEL=*|UUID=*)
RUN_FSCK_DISKS="$RUN_FSCK_DISKS $boot"
;;
esac
;;
disk=*)
disk="${arg#*=}"
case $disk in
ISCSI=*|NBD=*|NFS=*)
STORAGE_NETBOOT=yes
;;
/dev/*|LABEL=*|UUID=*)
RUN_FSCK_DISKS="$RUN_FSCK_DISKS $disk"
;;
esac
;;
wol_mac=*)
wol_mac="${arg#*=}"
;;
wol_wait=*)
wol_wait="${arg#*=}"
;;
installer)
SYSLINUX_DEFAULT="installer"
;;
debugging)
DEBUG=yes
;;
progress)
PROGRESS=yes
INIT_ARGS="$INIT_ARGS --show-status=1"
;;
nofsck)
RUN_FSCK=no
;;
nosplash)
SPLASH=no
;;
toram)
SYSTEM_TORAM=yes
;;
live)
LIVE=yes
SYSLINUX_DEFAULT="live"
;;
portable)
SYSLINUX_DEFAULT="run"
;;
grub_live)
LIVE=yes
GRUB_DEFAULT="Live"
;;
grub_portable)
GRUB_DEFAULT="Run"
;;
overlay)
OVERLAY=yes
;;
setfbres=*)
SWITCH_FRAMEBUFFER="${arg#*=}"
SWITCH_FRAMEBUFFER="${SWITCH_FRAMEBUFFER//,/ }"
;;
break=*)
BREAK="${arg#*=}"
;;
bigfont=*)
BIGFONT="${arg#*=}"
;;
ip=*)
KERNEL_IPCONFIG="yes"
;;
fat32-boot)
FAT32_BOOT="yes"
;;
esac
done
if test "$DEBUG" = "yes"; then
exec 3>&1
else
exec 3>/dev/null
fi
SILENT_OUT=3
# If the network is up (due to the use of the "ip" kernel parameter) and a DNS
# server is known, allow the libc resolver to use it
grep '^\(nameserver\|domain\) ' /proc/net/pnp | grep -v '^nameserver 0\.0\.0\.0$' > /etc/resolv.conf
if [ "${boot%%=*}" = "FILE" ]; then
error "check arguments" "boot argument can't be FILE type..."
fi
debug_msg "Unique identifier for this client: ${MACHINE_UID:-NOT AVAILABLE}"
# main boot sequence
for BOOT_STEP in \
set_consolefont \
check_disks \
mount_flash \
cleanup_flash \
update_bootmenu \
load_splash \
mount_sysroot \
mount_storage \
check_update \
prepare_sysroot; do
$BOOT_STEP
[ -n "$DEBUG" ] && break_after $BOOT_STEP
done
BOOT_STEP=final
# log if booting from usb / removable storage
STORAGE=$(cat /proc/mounts | grep " /sysroot/storage " | awk '{print $1}' | awk -F '/' '{print $3}')
FLASH=$(cat /proc/mounts | grep " /sysroot/flash " | awk '{print $1}' | awk -F '/' '{print $3}')
for i in $STORAGE $FLASH ; do
if [ -n "$i" ]; then
removable="/sys/class/block/*/$i/../removable"
if [ -e $removable ]; then
if [ "$(cat $removable 2>/dev/null)" = "1" ]; then
echo "### BIG FAT WARNING" > /dev/kmsg
echo "### $i is removable. suspend/resume may not work" > /dev/kmsg
fi
fi
fi
done
# move some special filesystems
/usr/bin/busybox mount --move /dev /sysroot/dev
/usr/bin/busybox mount --move /proc /sysroot/proc
/usr/bin/busybox mount --move /sys /sysroot/sys
/usr/bin/busybox mount --move /run /sysroot/run
/usr/bin/busybox rm -fr /tmp
# setup kernel overlays
/usr/bin/busybox chroot /sysroot /usr/sbin/kernel-overlays-setup
# tell OE settings addon to disable updates
if [ "$UPDATE_DISABLED" = "yes" ]; then
echo "" > /sysroot/dev/.update_disabled
fi
if [ "$FLASH_NETBOOT" = "yes" ]; then
echo "" > /sysroot/dev/.flash_netboot
fi
if [ "$KERNEL_IPCONFIG" = "yes" ]; then
echo "" > /sysroot/dev/.kernel_ipconfig
fi
# swap can not be used over nfs.(see scripts/mount-swap)
if [ "$STORAGE_NETBOOT" = "yes" ]; then
echo "" > /sysroot/dev/.storage_netboot
fi
# switch to new sysroot and start real init
exec /usr/bin/busybox switch_root /sysroot /usr/lib/systemd/systemd $INIT_ARGS
error "switch_root" "Error in initramfs. Could not switch to new root"