玩机教程—-安卓机型解锁system分区 任意修改删除系统文件
system分区可读写
参考上个博文可以了解到解锁system分区的有关常识。但目前很多机型都在安卓12 13 基础上。其实最简单的方法就在于刷写一个解锁system分区的第三方补丁包。在面具更新不能解锁系统分区的前提下。我们也可以通过刷写一个解锁模块来达到解锁分区的目的。
测试机型与信息
机型;小米11
芯片:骁龙888
操作步骤为:
解锁bl后有面具root权限。这个可以参考自己机型的解锁bl与root方法操作
然后在面具里刷入此模块。
重启后,查看模块运行开启正常。此时就可以任意系统分区读写。使用re管理器可以直观查看效果
操作效果
部分源代码如下:
SKIPUNZIP=1
if [ "$BOOTMODE" ] && [ "$KSU" ]; then
ui_print "- Installing from KernelSU app"
ui_print "- KernelSU version: $KSU_KERNEL_VER_CODE (kernel) + $KSU_VER_CODE (ksud)"
ui_print "- Please note that KernelSU modules mount will make"
ui_print " your system partitions unable to mount as rw"
ui_print "- If you are using KernelSU, "
ui_print " please unmount all ksu overlayfs"
ui_print " when you want to modify system partitions"
elif [ "$BOOTMODE" ] && [ "$MAGISK_VER_CODE" ]; then
ui_print "- Installing from Magisk app"
else
ui_print "*********************************************************"
ui_print "! Install from recovery is not supported"
ui_print "! Please install from KernelSU or Magisk app"
abort "*********************************************************"
fi
loop_setup() {
unset LOOPDEV
local LOOP
local MINORX=1
[ -e /dev/block/loop1 ] && MINORX=$(stat -Lc '%T' /dev/block/loop1)
local NUM=0
while [ $NUM -lt 1024 ]; do
LOOP=/dev/block/loop$NUM
[ -e $LOOP ] || mknod $LOOP b 7 $((NUM * MINORX))
if losetup $LOOP "$1" 2>/dev/null; then
LOOPDEV=$LOOP
break
fi
NUM=$((NUM + 1))
done
}
randdir="$TMPDIR/.$(head -c21 /dev/urandom | base64)"
mkdir -p "$randdir"
ABI="$(getprop ro.product.cpu.abi)"
# Fix ABI detection
if [ "$ABI" == "armeabi-v7a" ]; then
ABI32=armeabi-v7a
elif [ "$ABI" == "arm64" ]; then
ABI32=armeabi-v7a
elif [ "$ABI" == "x86" ]; then
ABI32=x86
elif [ "$ABI" == "x64" ] || [ "$ABI" == "x86_64" ]; then
ABI=x86_64
ABI32=x86
fi
unzip -oj "$ZIPFILE" "libs/$ABI/overlayfs_system" -d "$TMPDIR" 1>&2
chmod 777 "$TMPDIR/overlayfs_system"
if ! $TMPDIR/overlayfs_system --test; then
ui_print "! Kernel doesn't support overlayfs, are you sure?"
abort
fi
ui_print "- Extract files"
unzip -oj "$ZIPFILE" post-fs-data.sh
service.sh
util_functions.sh
mode.sh
mount.sh
uninstall.sh
module.prop
"libs/$ABI/overlayfs_system"
-d "$MODPATH"
unzip -oj "$ZIPFILE" util_functions.sh -d "/data/adb/modules/${MODPATH##*/}"
ui_print "- Setup module"
chmod 777 "$MODPATH/overlayfs_system"
resize_img() {
e2fsck -pf "$1" || return 1
if [ "$2" ]; then
resize2fs "$1" "$2" || return 1
else
resize2fs -M "$1" || return 1
fi
return 0
}
test_mount_image() {
loop_setup /data/adb/overlay
[ -z "$LOOPDEV" ] && return 1
result_mnt=1
mount -t ext4 -o rw "$LOOPDEV" "$randdir" &&
"$MODPATH/overlayfs_system" --test --check-ext4 "$randdir" && result_mnt=0
# ensure that uppderdir does not override my binary
rm -rf "$randdir/upper/system/bin/overlayfs_system"
"$randdir/upper/system/bin/magic_remount_rw"
"$randdir/upper/system/bin/magic_remount_ro"
umount -l "$randdir"
return $result_mnt
}
create_ext4_image() {
dd if=/dev/zero of="$1" bs=1024 count=100
/system/bin/mkfs.ext4 "$1" && return 0
return 1
}
if [ ! -f "/data/adb/overlay" ] || ! test_mount_image; then
rm -rf "/data/adb/overlay"
ui_print "- Setup 2GB ext4 image at /data/adb/overlay"
ui_print " Please wait..."
if ! create_ext4_image "/data/adb/overlay" || ! resize_img "/data/adb/overlay" 2000M || ! test_mount_image; then
rm -rf /data/adb/overlay
abort "! Setup ext4 image failed, abort"
fi
fi
mkdir -p "$MODPATH/system/bin"
chcon -R u:object_r:system_file:s0 "$MODPATH/system"
chmod -R 755 "$MODPATH/system"
ln "$MODPATH/overlayfs_system" "$MODPATH/system/bin"
ln -s "./overlayfs_system" "$MODPATH/system/bin/magic_remount_rw"
ln -s "./overlayfs_system" "$MODPATH/system/bin/magic_remount_ro"
. "$MODPATH/util_functions.sh"
support_overlayfs && rm -rf "$MODPATH/system"
ui_print
MODDIR=”${0%/*}”
set -o standalone
export MAGISKTMP=”$(magisk —path)”
chmod 777 “$MODDIR/overlayfs_system”
OVERLAYDIR=”/data/adb/overlay”
OVERLAYMNT=”/dev/mount_overlayfs”
MODULEMNT=”/dev/mount_loop“
mv -fT /cache/overlayfs.log /cache/overlayfs.log.bak
rm -rf /cache/overlayfs.log
echo “— Start debugging log —” >/cache/overlayfs.log
echo “init mount namespace: $(readlink /proc/1/ns/mnt)” >>/cache/overlayfs.log
echo “current mount namespace: $(readlink /proc/self/ns/mnt)” >>/cache/overlayfs.log
mkdir -p “$OVERLAYMNT”
mkdir -p “$OVERLAYDIR”
mkdir -p “$MODULEMNT”
mount -t tmpfs tmpfs “$MODULEMNT”
loop_setup() {
unset LOOPDEV
local LOOP
local MINORX=1
[ -e /dev/block/loop1 ] && MINORX=$(stat -Lc ‘%T’ /dev/block/loop1)
local NUM=0
while [ $NUM -lt 2048 ]; do
LOOP=/dev/block/loop$NUM
[ -e $LOOP ] || mknod $LOOP b 7 $((NUM * MINORX))
if losetup $LOOP “$1” 2>/dev/null; then
LOOPDEV=$LOOP
break
fi
NUM=$((NUM + 1))
done
}
if [ -f “$OVERLAYDIR” ]; then
loop_setup /data/adb/overlay
if [ ! -z “$LOOPDEV” ]; then
mount -o rw -t ext4 “$LOOPDEV” “$OVERLAYMNT”
ln “$LOOPDEV” /dev/block/overlayfs_loop
fi
fi
if ! “$MODDIR/overlayfs_system” –test —check–ext4 “$OVERLAYMNT”; then
echo “unable to mount writeable dir” >>/cache/overlayfs.log
exit
fi
num=0
for i in /data/adb/modules/*; do
[ ! -e “$i” ] && break;
module_name=”$(basename “$i”)”
if [ ! -e “$i/disable” ] && [ ! -e “$i/remove” ]; then
if [ -f “$i/overlay.img” ]; then
loop_setup “$i/overlay.img”
if [ ! -z “$LOOPDEV” ]; then
echo “mount overlayfs for module: $module_name” >>/cache/overlayfs.log
mkdir -p “$MODULEMNT/$num“
mount -o rw -t ext4 “$LOOPDEV” “$MODULEMNT/$num“
fi
num=”$((num+1))”
fi
if [ “$KSU” == “true” ]; then
mkdir -p “$MODULEMNT/$num”
mount —bind “$i” “$MODULEMNT/$num”
num=”$((num+1))”
fi
fi
done
OVERLAYLIST=””
for i in “$MODULEMNT”/*; do
[ ! -e “$i” ] && break;
if [ -d “$i” ] && [ ! -L “$i” ] && “$MODDIR/overlayfs_system” –test —check-ext4 “$i”; then
OVERLAYLIST=”$i:$OVERLAYLIST”
fi
done
mkdir -p “$OVERLAYMNT/upper“
rm -rf “$OVERLAYMNT/worker“
mkdir -p “$OVERLAYMNT/worker“
if [ ! -z “$OVERLAYLIST” ]; then
export OVERLAYLIST=”${OVERLAYLIST::-1}”
echo “mount overlayfs list: [$OVERLAYLIST]” >>/cache/overlayfs.log
fi
# overlay_system <writeable-dir>
. “$MODDIR/mode.sh”
“$MODDIR/overlayfs_system” “$OVERLAYMNT” | tee -a /cache/overlayfs.log
if [ ! -z “$MAGISKTMP” ]; then
mkdir -p “$MAGISKTMP/overlayfs_mnt”
mount —bind “$OVERLAYMNT” “$MAGISKTMP/overlayfs_mnt”
fi
umount -l “$OVERLAYMNT”
rmdir “$OVERLAYMNT”
umount -l “$MODULEMNT”
rmdir “$MODULEMNT”
rm -rf /dev/.overlayfs_service_unblock
echo “— Mountinfo (post-fs-data) —” >>/cache/overlayfs.log
cat /proc/mounts >>/cache/overlayfs.log
(
# block until /dev/.overlayfs_service_unblock
while [ ! -e “/dev/.overlayfs_service_unblock” ]; do
sleep 1
done
rm -rf /dev/.overlayfs_service_unblock
echo “— Mountinfo (late_start) —” >>/cache/overlayfs.log
cat /proc/mounts >>/cache/overlayfs.log
) &
resize_img() {
e2fsck -pf "$1" || return 1
if [ "$2" ]; then
resize2fs "$1" "$2" || return 1
else
resize2fs -M "$1" || return 1
fi
return 0
}
loop_setup() {
unset LOOPDEV
local LOOP
local MINORX=1
[ -e /dev/block/loop1 ] && MINORX=$(stat -Lc '%T' /dev/block/loop1)
local NUM=0
while [ $NUM -lt 2048 ]; do
LOOP=/dev/block/loop$NUM
[ -e $LOOP ] || mknod $LOOP b 7 $((NUM * MINORX))
if losetup $LOOP "$1" 2>/dev/null; then
LOOPDEV=$LOOP
break
fi
NUM=$((NUM + 1))
done
}
sizeof(){
EXTRA="$2"
[ -z "$EXTRA" ] && EXTRA=0
[ "$EXTRA" -gt 0 ] || EXTRA=0
size="$(du -s "$1" | awk '{ print $1 }')"
# append more 20Mb
size="$((size + EXTRA))"
echo -n "$((size + 20000))"
}
handle() {
if [ ! -L "/$1" ] && [ -d "/$1" ] && [ -d "$MODPATH/system/$1" ]; then
rm -rf "$MODPATH/overlay/$1"
mv -f "$MODPATH/overlay/system/$1" "$MODPATH/overlay"
ln -s "../$1" "$MODPATH/overlay/system/$1"
fi
}
create_ext4_image() {
dd if=/dev/zero of="$1" bs=1024 count=100
/system/bin/mkfs.ext4 "$1" && return 0
return 1
}
support_overlayfs() {
#OVERLAY_IMAGE_EXTRA - number of kb need to be added to overlay.img
#OVERLAY_IMAGE_SHRINK - shrink overlay.img or not?
if [ -d "$MODPATH/system" ]; then
OVERLAY_IMAGE_SIZE="$(sizeof "$MODPATH/system" "$OVERLAY_IMAGE_EXTRA")"
rm -rf "$MODPATH/overlay.img"
create_ext4_image "$MODPATH/overlay.img"
resize_img "$MODPATH/overlay.img" "${OVERLAY_IMAGE_SIZE}M" || { ui_print "! Setup failed"; return 1; }
ui_print "- Created overlay image with size: $(du -shH "$MODPATH/overlay.img" | awk '{ print $1 }')"
loop_setup "$MODPATH/overlay.img"
if [ ! -z "$LOOPDEV" ]; then
rm -rf "$MODPATH/overlay"
mkdir "$MODPATH/overlay"
mount -t ext4 -o rw "$LOOPDEV" "$MODPATH/overlay"
chcon u:object_r:system_file:s0 "$MODPATH/overlay"
cp -afT "$MODPATH/system" "$MODPATH/overlay/system"
# fix context
( cd "$MODPATH" || exit
find "system" | while read line; do
chcon "$(ls -Zd "$line" | awk '{ print $1 }')" "$MODPATH/overlay/$line"
if [ -e "$line/.replace" ]; then
setfattr -n trusted.overlay.opaque -v y "$MODPATH/overlay/$line"
fi
done
)
# handle partition
handle vendor
handle product
handle system_ext
umount -l "$MODPATH/overlay"
if [ "$OVERLAY_IMAGE_SHRINK" == "true" ] || [ -z "$OVERLAY_IMAGE_SHRINK" ]; then
ui_print "- Shrink overlay image"
resize_img "$MODPATH/overlay.img"
ui_print "- Overlay image new size: $(du -shH "$MODPATH/overlay.img" | awk '{ print $1 }')"
fi
rm -rf "$MODPATH/overlay"
return 0
fi
fi
return 1
}
这个是一个开源的解锁系统分区资源。官方下载链接:官方开源地址
原文地址:https://blog.csdn.net/u011283906/article/details/133633463
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