Magisk/scripts/app_functions.sh

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##################################
# Magisk app internal scripts
##################################
run_delay() {
(sleep $1; $2)&
}
env_check() {
for file in busybox magiskboot magiskinit util_functions.sh boot_patch.sh; do
[ -f "$MAGISKBIN/$file" ] || return 1
done
if [ "$2" -ge 25000 ]; then
[ -f "$MAGISKBIN/magiskpolicy" ] || return 1
fi
if [ "$2" -ge 25210 ]; then
[ -b "$MAGISKTMP/.magisk/device/preinit" ] || [ -b "$MAGISKTMP/.magisk/block/preinit" ] || return 2
fi
grep -xqF "MAGISK_VER='$1'" "$MAGISKBIN/util_functions.sh" || return 3
grep -xqF "MAGISK_VER_CODE=$2" "$MAGISKBIN/util_functions.sh" || return 3
return 0
}
cp_readlink() {
if [ -z $2 ]; then
cd $1
else
cp -af $1/. $2
cd $2
fi
for file in *; do
if [ -L $file ]; then
local full=$(readlink -f $file)
rm $file
cp -af $full $file
fi
done
chmod -R 755 .
cd /
}
fix_env() {
# Cleanup and make dirs
rm -rf $MAGISKBIN/*
mkdir -p $MAGISKBIN 2>/dev/null
chmod 700 /data/adb
cp_readlink $1 $MAGISKBIN
rm -rf $1
chown -R 0:0 $MAGISKBIN
}
direct_install() {
echo "- Flashing new boot image"
flash_image $1/new-boot.img $2
case $? in
1)
echo "! Insufficient partition size"
return 1
;;
2)
echo "! $2 is read only"
return 2
;;
esac
rm -f $1/new-boot.img
fix_env $1
run_migrations
return 0
}
run_uninstaller() {
rm -rf /dev/tmp
mkdir -p /dev/tmp/install
unzip -o "$1" "assets/*" "lib/*" -d /dev/tmp/install
INSTALLER=/dev/tmp/install sh /dev/tmp/install/assets/uninstaller.sh dummy 1 "$1"
}
restore_imgs() {
local SHA1=$(grep_prop SHA1 $MAGISKTMP/.magisk/config)
local BACKUPDIR=/data/magisk_backup_$SHA1
[ -d $BACKUPDIR ] || return 1
get_flags
find_boot_image
for name in dtb dtbo; do
[ -f $BACKUPDIR/${name}.img.gz ] || continue
local IMAGE=$(find_block $name$SLOT)
[ -z $IMAGE ] && continue
flash_image $BACKUPDIR/${name}.img.gz $IMAGE
done
[ -f $BACKUPDIR/boot.img.gz ] || return 1
flash_image $BACKUPDIR/boot.img.gz $BOOTIMAGE
}
post_ota() {
cd /data/adb
cp -f $1 bootctl
rm -f $1
chmod 755 bootctl
./bootctl hal-info || return
SLOT_NUM=0
[ $(./bootctl get-current-slot) -eq 0 ] && SLOT_NUM=1
./bootctl set-active-boot-slot $SLOT_NUM
cat << EOF > post-fs-data.d/post_ota.sh
/data/adb/bootctl mark-boot-successful
rm -f /data/adb/bootctl
rm -f /data/adb/post-fs-data.d/post_ota.sh
EOF
chmod 755 post-fs-data.d/post_ota.sh
cd /
}
add_hosts_module() {
# Do not touch existing hosts module
[ -d /data/adb/modules/hosts ] && return
cd /data/adb/modules
mkdir -p hosts/system/etc
cat << EOF > hosts/module.prop
id=hosts
name=Systemless Hosts
version=1.0
versionCode=1
author=Magisk
description=Magisk app built-in systemless hosts module
EOF
magisk --clone /system/etc/hosts hosts/system/etc/hosts
touch hosts/update
cd /
}
adb_pm_install() {
local tmp=/data/local/tmp/temp.apk
cp -f "$1" $tmp
chmod 644 $tmp
su 2000 -c pm install -g $tmp || pm install -g $tmp || su 1000 -c pm install -g $tmp
local res=$?
rm -f $tmp
if [ $res = 0 ]; then
appops set "$2" REQUEST_INSTALL_PACKAGES allow
fi
return $res
}
check_boot_ramdisk() {
# Create boolean ISAB
ISAB=true
[ -z $SLOT ] && ISAB=false
# If we are A/B, then we must have ramdisk
$ISAB && return 0
# If we are using legacy SAR, but not A/B, assume we do not have ramdisk
if $LEGACYSAR; then
# Override recovery mode to true
RECOVERYMODE=true
return 1
fi
return 0
}
check_encryption() {
if $ISENCRYPTED; then
if [ $SDK_INT -lt 24 ]; then
CRYPTOTYPE="block"
else
# First see what the system tells us
CRYPTOTYPE=$(getprop ro.crypto.type)
if [ -z $CRYPTOTYPE ]; then
# If not mounting through device mapper, we are FBE
if grep ' /data ' /proc/mounts | grep -qv 'dm-'; then
CRYPTOTYPE="file"
else
# We are either FDE or metadata encryption (which is also FBE)
CRYPTOTYPE="block"
grep -q ' /metadata ' /proc/mounts && CRYPTOTYPE="file"
fi
fi
fi
else
CRYPTOTYPE="N/A"
fi
}
printvar() {
eval echo $1=\$$1
}
run_action() {
local MODID="$1"
cd "/data/adb/modules/$MODID"
ASH_STANDALONE=1 sh ./action.sh
cd /
}
##########################
# Non-root util_functions
##########################
mount_partitions() {
[ "$(getprop ro.build.ab_update)" = "true" ] && SLOT=$(getprop ro.boot.slot_suffix)
# Check whether non rootfs root dir exists
SYSTEM_AS_ROOT=false
grep ' / ' /proc/mounts | grep -qv 'rootfs' && SYSTEM_AS_ROOT=true
LEGACYSAR=false
grep ' / ' /proc/mounts | grep -q '/dev/root' && LEGACYSAR=true
}
get_flags() {
KEEPVERITY=$SYSTEM_AS_ROOT
ISENCRYPTED=false
[ "$(getprop ro.crypto.state)" = "encrypted" ] && ISENCRYPTED=true
KEEPFORCEENCRYPT=$ISENCRYPTED
if [ -n "$(getprop ro.boot.vbmeta.device)" -o -n "$(getprop ro.boot.vbmeta.size)" ]; then
PATCHVBMETAFLAG=false
elif getprop ro.product.ab_ota_partitions | grep -wq vbmeta; then
PATCHVBMETAFLAG=false
else
PATCHVBMETAFLAG=true
fi
[ -z $RECOVERYMODE ] && RECOVERYMODE=false
}
run_migrations() { return; }
grep_prop() { return; }
#############
# Initialize
#############
app_init() {
mount_partitions >/dev/null
RAMDISKEXIST=false
check_boot_ramdisk && RAMDISKEXIST=true
get_flags >/dev/null
run_migrations >/dev/null
check_encryption
# Dump variables
printvar SLOT
printvar SYSTEM_AS_ROOT
printvar RAMDISKEXIST
printvar ISAB
printvar CRYPTOTYPE
printvar PATCHVBMETAFLAG
printvar LEGACYSAR
printvar RECOVERYMODE
printvar KEEPVERITY
printvar KEEPFORCEENCRYPT
}
export BOOTMODE=true