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MIT License
GNU GENERAL PUBLIC LICENSE
Version 2, June 1991
Copyright (c) 2023 kraoc
Copyright (C) 1989, 1991 Free Software Foundation, Inc.,
51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
Everyone is permitted to copy and distribute verbatim copies
of this license document, but changing it is not allowed.
Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions:
Preamble
The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software.
The licenses for most software are designed to take away your
freedom to share and change it. By contrast, the GNU General Public
License is intended to guarantee your freedom to share and change free
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General Public License applies to most of the Free Software
Foundation's software and to any other program whose authors commit to
using it. (Some other Free Software Foundation software is covered by
the GNU Lesser General Public License instead.) You can apply it to
your programs, too.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
When we speak of free software, we are referring to freedom, not
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TERMS AND CONDITIONS FOR COPYING, DISTRIBUTION AND MODIFICATION
0. This License applies to any program or other work which contains
a notice placed by the copyright holder saying it may be distributed
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NO WARRANTY
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END OF TERMS AND CONDITIONS
How to Apply These Terms to Your New Programs
If you develop a new program, and you want it to be of the greatest
possible use to the public, the best way to achieve this is to make it
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convey the exclusion of warranty; and each file should have at least
the "copyright" line and a pointer to where the full notice is found.
<one line to give the program's name and a brief idea of what it does.>
Copyright (C) <year> <name of author>
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License along
with this program; if not, write to the Free Software Foundation, Inc.,
51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
Also add information on how to contact you by electronic and paper mail.
If the program is interactive, make it output a short notice like this
when it starts in an interactive mode:
Gnomovision version 69, Copyright (C) year name of author
Gnomovision comes with ABSOLUTELY NO WARRANTY; for details type `show w'.
This is free software, and you are welcome to redistribute it
under certain conditions; type `show c' for details.
The hypothetical commands `show w' and `show c' should show the appropriate
parts of the General Public License. Of course, the commands you use may
be called something other than `show w' and `show c'; they could even be
mouse-clicks or menu items--whatever suits your program.
You should also get your employer (if you work as a programmer) or your
school, if any, to sign a "copyright disclaimer" for the program, if
necessary. Here is a sample; alter the names:
Yoyodyne, Inc., hereby disclaims all copyright interest in the program
`Gnomovision' (which makes passes at compilers) written by James Hacker.
<signature of Ty Coon>, 1 April 1989
Ty Coon, President of Vice
This General Public License does not permit incorporating your program into
proprietary programs. If your program is a subroutine library, you may
consider it more useful to permit linking proprietary applications with the
library. If this is what you want to do, use the GNU Lesser General
Public License instead of this License.

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#!/sbin/sh
#################
# Initialization
#################
umask 022
# echo before loading util_functions
ui_print() { echo "$1"; }
require_new_magisk() {
ui_print "*******************************"
ui_print " Please install Magisk v20.4+! "
ui_print "*******************************"
exit 1
}
#########################
# Load util_functions.sh
#########################
OUTFD=$2
ZIPFILE=$3
mount /data 2>/dev/null
[ -f /data/adb/magisk/util_functions.sh ] || require_new_magisk
. /data/adb/magisk/util_functions.sh
[ $MAGISK_VER_CODE -lt 20400 ] && require_new_magisk
install_module
exit 0

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#MAGISK

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# magisk-aiot
# OIOT
All-In-One Tweaks
## Thanks to
* ### [Zackptg5](https://github.com/Zackptg5)
[Magisk Module Template Extended (MMT-Ex)](https://github.com/Zackptg5/MMT-Extended)
* ### K1ks
[NFS-INJECTOR](https://github.com/Magisk-Modules-Repo/nfsinjector)
* ### korom42
[LKT](https://github.com/Magisk-Modules-Repo/legendary_kernel_tweaks)
* ### FeraVolt
[FDE.AI](https://github.com/Magisk-Modules-Repo/FDE)
* ### korom42
[zRAM/SWAP Manager](https://github.com/korom42)
* ### Paget96
[L Speed tweak](https://github.com/Paget96/LSpeed)
* ### Draco
[KTweak](https://github.com/tytydraco/ktweak)
* ### Eight
[Lazy Tweaks](https://github.com/iamlazy123/lazytweaks)
* ### Dreamer(3MF)
[ClearDalvikCache4Magisk](https://forum.xda-developers.com/apps/magisk/module-dalvik-cache-t3787264)
* ### AdroitAdorKhan, AvinashReddy3108, Rom and JasonYoung
[Energized Protection](http://go.energized.pro/github)
* ### Joey Huab, Aidan Holland, Pika, JohnFawkes, and Laster K. (lazerl0rd)
[Pix3lify](https://github.com/Magisk-Modules-Repo/Pix3lify)
* ### Luismii
[Pixel Features Lite](https://forum.xda-developers.com/t/magisk-pixel-features-lite-12-10-2020.4028779/)
* ### [RKBDI]
[UNRELEASED android 11 emojis](...)
* ### [JoyPixels]
[JoyPixels (formerly Emoji One)](https://forum.xda-developers.com/t/module-joypixels-formerly-emoji-one.3477911/)
* ### [Energized]
[Spark](https://block.energized.pro/spark/formats/hosts)
* ### [Emoji]
[Emoji sets by RKBDI](https://forum.xda-developers.com/t/module-emoji-sets-by-rkbdi.4120991/)
* ### [JoyPixels]
[JoyPixels (formerly Emoji One)](http://forum.xda-developers.com/apps/magisk/module-emoji-one-t3477911/)

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# Changelog
## v1.4 - 2023.12.02
* Upgrade MMT-Extended to v3.5
* Keep performance mode Balance
* Add Optmzr tweaks
* Add Mobile tweaks
* Add Network tweaks
* Add Medias tweaks
* Add JoyPixels v8.0 Emojis
## v1.3 - 2022.06.28
* Switch from Latency to Balance
## v1.2 - 2022.06.21
* Version bump
## v1.1 - 2022.04.13
* Updated to MMT-Ex v2.0
## v1.0 - 2022.04.13
* Initial release

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##########################################################################################
#
# MMT Extended Utility Functions
#
##########################################################################################
require_new_ksu() {
ui_print "**********************************"
ui_print " Please install KernelSU v0.6.6+! "
ui_print "**********************************"
exit 1
}
umount_mirrors() {
[ -d $ORIGDIR ] || return 0
for i in $ORIGDIR/*; do
umount -l $i 2>/dev/null
done
rm -rf $ORIGDIR 2>/dev/null
mount -o ro,remount $MAGISKTMP
}
cleanup() {
$KSU && umount_mirrors
rm -rf $MODPATH/common $MODPATH/install.zip 2>/dev/null
}
abort() {
ui_print "$1"
rm -rf $MODPATH 2>/dev/null
cleanup
rm -rf $TMPDIR 2>/dev/null
exit 1
}
device_check() {
local opt=`getopt -o dm -- "$@"` type=device
eval set -- "$opt"
while true; do
case "$1" in
-d) local type=device; shift;;
-m) local type=manufacturer; shift;;
--) shift; break;;
*) abort "Invalid device_check argument $1! Aborting!";;
esac
done
local prop=$(echo "$1" | tr '[:upper:]' '[:lower:]')
for i in /system /vendor /odm /product; do
if [ -f $i/build.prop ]; then
for j in "ro.product.$type" "ro.build.$type" "ro.product.vendor.$type" "ro.vendor.product.$type"; do
[ "$(sed -n "s/^$j=//p" $i/build.prop 2>/dev/null | head -n 1 | tr '[:upper:]' '[:lower:]')" == "$prop" ] && return 0
done
[ "$type" == "device" ] && [ "$(sed -n "s/^"ro.build.product"=//p" $i/build.prop 2>/dev/null | head -n 1 | tr '[:upper:]' '[:lower:]')" == "$prop" ] && return 0
fi
done
return 1
}
cp_ch() {
local opt=`getopt -o nr -- "$@"` BAK=true UBAK=true FOL=false
eval set -- "$opt"
while true; do
case "$1" in
-n) UBAK=false; shift;;
-r) FOL=true; shift;;
--) shift; break;;
*) abort "Invalid cp_ch argument $1! Aborting!";;
esac
done
local SRC="$1" DEST="$2" OFILES="$1"
$FOL && local OFILES=$(find $SRC -type f 2>/dev/null)
[ -z $3 ] && PERM=0644 || PERM=$3
case "$DEST" in
$TMPDIR/*|$MODULEROOT/*|$NVBASE/modules/$MODID/*) BAK=false;;
esac
for OFILE in ${OFILES}; do
if $FOL; then
if [ "$(basename $SRC)" == "$(basename $DEST)" ]; then
local FILE=$(echo $OFILE | sed "s|$SRC|$DEST|")
else
local FILE=$(echo $OFILE | sed "s|$SRC|$DEST/$(basename $SRC)|")
fi
else
[ -d "$DEST" ] && local FILE="$DEST/$(basename $SRC)" || local FILE="$DEST"
fi
if $BAK && $UBAK; then
[ ! "$(grep "$FILE$" $INFO 2>/dev/null)" ] && echo "$FILE" >> $INFO
[ -f "$FILE" -a ! -f "$FILE~" ] && { mv -f $FILE $FILE~; echo "$FILE~" >> $INFO; }
elif $BAK; then
[ ! "$(grep "$FILE$" $INFO 2>/dev/null)" ] && echo "$FILE" >> $INFO
fi
install -D -m $PERM "$OFILE" "$FILE"
done
}
install_script() {
case "$1" in
-b) shift;
if $KSU; then
local INPATH=$NVBASE/boot-completed.d
else
local INPATH=$SERVICED
sed -i -e '1i (\nwhile [ "$(getprop sys.boot_completed)" != "1" ]; do\n sleep 1\ndone\nsleep 3\n' -e '$a)&' $1
fi;;
-l) shift; local INPATH=$SERVICED;;
-p) shift; local INPATH=$POSTFSDATAD;;
*) local INPATH=$SERVICED;;
esac
[ "$(grep "#!/system/bin/sh" $1)" ] || sed -i "1i #!/system/bin/sh" $1
local i; for i in "MODPATH" "LIBDIR" "MODID" "INFO" "MODDIR"; do
case $i in
"MODPATH") sed -i "1a $i=$NVBASE/modules/$MODID" $1;;
"MODDIR") sed -i "1a $i=\${0%/*}" $1;;
*) sed -i "1a $i=$(eval echo \$$i)" $1;;
esac
done
case $1 in
"$MODPATH/post-fs-data.sh"|"$MODPATH/service.sh"|"$MODPATH/uninstall.sh") sed -i "s|^MODPATH=.*|MODPATH=\$MODDIR|" $1;; # MODPATH=MODDIR for these scripts (located in module directory)
"$MODPATH/boot-completed.sh") $KSU && sed -i "s|^MODPATH=.*|MODPATH=\$MODDIR|" $1 || { cp_ch -n $1 $INPATH/$MODID-$(basename $1) 0755; rm -f $MODPATH/boot-completed.sh; };;
*) cp_ch -n $1 $INPATH/$(basename $1) 0755;;
esac
}
prop_process() {
sed -i -e "/^#/d" -e "/^ *$/d" $1
[ -f $MODPATH/system.prop ] || mktouch $MODPATH/system.prop
while read LINE; do
echo "$LINE" >> $MODPATH/system.prop
done < $1
}
mount_mirrors() {
mount -o rw,remount $MAGISKTMP
mkdir -p $ORIGDIR/system
if $SYSTEM_ROOT; then
mkdir -p $ORIGDIR/system_root
mount -o ro / $ORIGDIR/system_root
mount -o bind $ORIGDIR/system_root/system $ORIGDIR/system
else
mount -o ro /system $ORIGDIR/system
fi
for i in /vendor $PARTITIONS; do
[ ! -d $i -o -d $ORIGDIR$i ] && continue
mkdir -p $ORIGDIR$i
mount -o ro $i $ORIGDIR$i
done
}
# Credits
ui_print "**************************************"
ui_print "* MMT Extended by Zackptg5 @ XDA *"
ui_print "**************************************"
ui_print " "
# Check for min/max api version
[ -z $MINAPI ] || { [ $API -lt $MINAPI ] && abort "! Your system API of $API is less than the minimum api of $MINAPI! Aborting!"; }
[ -z $MAXAPI ] || { [ $API -gt $MAXAPI ] && abort "! Your system API of $API is greater than the maximum api of $MAXAPI! Aborting!"; }
# Min KSU v0.6.6
[ -z $KSU ] && KSU=false
$KSU && { [ $KSU_VER_CODE -lt 11184 ] && require_new_ksu; }
# Start debug
set -x
# Set variables
[ -z $ARCH32 ] && ARCH32="$(echo $ABI32 | cut -c-3)"
[ $API -lt 26 ] && DYNLIB=false
[ -z $DYNLIB ] && DYNLIB=false
[ -z $PARTOVER ] && PARTOVER=false
[ -z $SYSTEM_ROOT ] && SYSTEM_ROOT=$SYSTEM_AS_ROOT # renamed in magisk v26.3
[ -z $SERVICED ] && SERVICED=$NVBASE/service.d # removed in magisk v26.2
[ -z $POSTFSDATAD ] && POSTFSDATAD=$NVBASE/post-fs-data.d # removed in magisk v26.2
INFO=$NVBASE/modules/.$MODID-files
if $KSU; then
MAGISKTMP="/mnt"
ORIGDIR="$MAGISKTMP/mirror"
mount_mirrors
elif [ "$(magisk --path 2>/dev/null)" ]; then
ORIGDIR="$(magisk --path 2>/dev/null)/.magisk/mirror"
elif [ "$(echo $MAGISKTMP | awk -F/ '{ print $NF}')" == ".magisk" ]; then
ORIGDIR="$MAGISKTMP/mirror"
else
ORIGDIR="$MAGISKTMP/.magisk/mirror"
fi
if $DYNLIB; then
LIBPATCH="\/vendor"
LIBDIR=/system/vendor
else
LIBPATCH="\/system"
LIBDIR=/system
fi
# Detect extra partition compatibility (KernelSU or Magisk Delta)
EXTRAPART=false
if $KSU || [ "$(echo $MAGISK_VER | awk -F- '{ print $NF}')" == "delta" ]; then
EXTRAPART=true
elif ! $PARTOVER; then
unset PARTITIONS
fi
if ! $BOOTMODE; then
ui_print "- Only uninstall is supported in recovery"
ui_print " Uninstalling!"
touch $MODPATH/remove
[ -s $INFO ] && install_script $MODPATH/uninstall.sh || rm -f $INFO $MODPATH/uninstall.sh
recovery_cleanup
cleanup
rm -rf $NVBASE/modules_update/$MODID $TMPDIR 2>/dev/null
exit 0
fi
# Extract files
ui_print "- Extracting module files"
unzip -o "$ZIPFILE" -x 'META-INF/*' 'common/functions.sh' -d $MODPATH >&2
[ -f "$MODPATH/common/addon.tar.xz" ] && tar -xf $MODPATH/common/addon.tar.xz -C $MODPATH/common 2>/dev/null
# Run addons
if [ "$(ls -A $MODPATH/common/addon/*/install.sh 2>/dev/null)" ]; then
ui_print " "; ui_print "- Running Addons -"
for i in $MODPATH/common/addon/*/install.sh; do
ui_print " Running $(echo $i | sed -r "s|$MODPATH/common/addon/(.*)/install.sh|\1|")..."
. $i
done
fi
# Remove files outside of module directory
ui_print "- Removing old files"
if [ -f $INFO ]; then
while read LINE; do
if [ "$(echo -n $LINE | tail -c 1)" == "~" ]; then
continue
elif [ -f "$LINE~" ]; then
mv -f $LINE~ $LINE
else
rm -f $LINE
while true; do
LINE=$(dirname $LINE)
[ "$(ls -A $LINE 2>/dev/null)" ] && break 1 || rm -rf $LINE
done
fi
done < $INFO
rm -f $INFO
fi
### Install
ui_print "- Installing"
[ -f "$MODPATH/common/install.sh" ] && . $MODPATH/common/install.sh
ui_print " Installing for $ARCH SDK $API device..."
# Remove comments from files and place them, add blank line to end if not already present
for i in $(find $MODPATH -type f -name "*.sh" -o -name "*.prop" -o -name "*.rule"); do
[ -f $i ] && { sed -i -e "/^#/d" -e "/^ *$/d" $i; [ "$(tail -1 $i)" ] && echo "" >> $i; } || continue
case $i in
"$MODPATH/boot-completed.sh") install_script -b $i;;
"$MODPATH/service.sh") install_script -l $i;;
"$MODPATH/post-fs-data.sh") install_script -p $i;;
"$MODPATH/uninstall.sh") if [ -s $INFO ] || [ "$(head -n1 $MODPATH/uninstall.sh)" != "# Don't modify anything after this" ]; then
cp -f $MODPATH/uninstall.sh $MODPATH/$MODID-uninstall.sh # Fallback script in case module manually deleted
sed -i "1i[ -d \"\$MODPATH\" ] && exit 0" $MODPATH/$MODID-uninstall.sh
echo 'rm -f $0' >> $MODPATH/$MODID-uninstall.sh
install_script -l $MODPATH/$MODID-uninstall.sh
rm -f $MODPATH/$MODID-uninstall.sh
install_script $MODPATH/uninstall.sh
else
rm -f $INFO $MODPATH/uninstall.sh
fi;;
esac
done
$IS64BIT || for i in $(find $MODPATH/system -type d -name "lib64"); do rm -rf $i 2>/dev/null; done
[ -d "/system/priv-app" ] || mv -f $MODPATH/system/priv-app $MODPATH/system/app 2>/dev/null
[ -d "/system/xbin" ] || mv -f $MODPATH/system/xbin $MODPATH/system/bin 2>/dev/null
if $DYNLIB; then
for FILE in $(find $MODPATH/system/lib* -type f 2>/dev/null | sed "s|$MODPATH/system/||"); do
[ -s $MODPATH/system/$FILE ] || continue
case $FILE in
lib*/modules/*) continue;;
esac
mkdir -p $(dirname $MODPATH/system/vendor/$FILE)
mv -f $MODPATH/system/$FILE $MODPATH/system/vendor/$FILE
[ "$(ls -A `dirname $MODPATH/system/$FILE`)" ] || rm -rf `dirname $MODPATH/system/$FILE`
done
# Delete empty lib folders (busybox find doesn't have this capability)
toybox find $MODPATH/system/lib* -type d -empty -delete >/dev/null 2>&1
fi
# Set permissions
ui_print " "
ui_print "- Setting Permissions"
set_perm_recursive $MODPATH 0 0 0755 0644
for i in /system/vendor /vendor /system/vendor/app /vendor/app /system/vendor/etc /vendor/etc /system/odm/etc /odm/etc /system/vendor/odm/etc /vendor/odm/etc /system/vendor/overlay /vendor/overlay; do
if [ -d "$MODPATH$i" ] && [ ! -L "$MODPATH$i" ]; then
case $i in
*"/vendor") set_perm_recursive $MODPATH$i 0 0 0755 0644 u:object_r:vendor_file:s0;;
*"/app") set_perm_recursive $MODPATH$i 0 0 0755 0644 u:object_r:vendor_app_file:s0;;
*"/overlay") set_perm_recursive $MODPATH$i 0 0 0755 0644 u:object_r:vendor_overlay_file:s0;;
*"/etc") set_perm_recursive $MODPATH$i 0 2000 0755 0644 u:object_r:vendor_configs_file:s0;;
esac
fi
done
for i in $(find $MODPATH/system/vendor $MODPATH/vendor -type f -name *".apk" 2>/dev/null); do
chcon u:object_r:vendor_app_file:s0 $i
done
set_permissions
# Complete install
cleanup

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SOC=`getprop ro.board.platform`
ui_print ""
ui_print "*** $MODID"
ui_print "** SDK $API"
ui_print "** ARCH $ARCH"
ui_print "** SOC $SOC"
ui_print "***"
ui_print ""
#
# JoyPixels installation
#
# The following is the default implementation: extract $ZIPFILE/system to $MODPATH
# Extend/change the logic to whatever you want
ui_print "- Extracting module files"
unzip -o "$ZIPFILE" 'system/fonts/JoyPixels.ttf' -d $MODPATH >&2
ui_print "- Searching in fonts.xml"
[[ -d /sbin/.core/mirror ]] && MIRRORPATH=/sbin/.core/mirror || unset MIRRORPATH
FILE=/system/etc/fonts.xml
FILENAME=$(sed -ne '/<family lang="und-Zsye".*>/,/<\/family>/ {s/.*<font weight="400" style="normal">\(.*\)<\/font>.*/\1/p;}' $MIRRORPATH$FILE)
for i in $FILENAME
do
ui_print "- Copying fonts files to $i"
cp -f $MODPATH/system/fonts/JoyPixels.ttf $MODPATH/system/fonts/$i
done

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#
_SLEEPBOOT=60
RETRY_INTERVAL=${_SLEEPBOOT} #in seconds
MAX_RETRY=3
retry=${MAX_RETRY}
while (("$retry" > "0")) && [ "$(getprop sys.boot_completed)" != "1" ]; do
sleep ${RETRY_INTERVAL}
(($retry--))
done
### --------------------------------------------------
### Kraoc
### --------------------------------------------------
# Random entropy
setprop kernel.random.read_wakeup_threshold 128
setprop kernel.random.write_wakeup_threshold 896
sysctl -e -w kernel.random.read_wakeup_threshold=128
sysctl -e -w kernel.random.write_wakeup_threshold=896
# UI scale
settings put global window_animation_scale 0.25
settings put global transition_animation_scale 0.25
settings put global animator_duration_scale 0.25
### --------------------------------------------------
### Ktweaks
### --------------------------------------------------
#!/usr/bin/env bash
# Written by Draco (tytydraco @ GitHub)
# The name of the current branch for logging purposes
BRANCH="balance"
# Maximum unsigned integer size in C
UINT_MAX="4294967295"
# Duration in nanoseconds of one scheduling period
SCHED_PERIOD="$((4 * 1000 * 1000))"
# How many tasks should we have at a maximum in one scheduling period
SCHED_TASKS="8"
write() {
# Bail out if file does not exist
[[ ! -f "$1" ]] && return 1
# Make file writable in case it is not already
chmod +w "$1" 2> /dev/null
# Write the new value and bail if there's an error
if ! echo "$2" > "$1" 2> /dev/null
then
# echo "Failed: $1 → $2"
return 1
fi
# Log the success
# echo "$1 → $2"
}
## Check for root permissions and bail if not granted
#if [[ "$(id -u)" -ne 0 ]]
#then
## echo "No root permissions. Exiting."
# exit 1
#fi
# Detect if we are running on Android
#grep -q android /proc/cmdline && ANDROID=true
ANDROID=true
## Log the date and time for records sake
#echo "Time of execution: $(date)"
#echo "Branch: $BRANCH"
# Sync to data in the rare case a device crashes
#sync
# Limit max perf event processing time to this much CPU usage
write /proc/sys/kernel/perf_cpu_time_max_percent 5
# Group tasks for less stutter but less throughput
write /proc/sys/kernel/sched_autogroup_enabled 1
# Execute child process before parent after fork
write /proc/sys/kernel/sched_child_runs_first 1
# Preliminary requirement for the following values
write /proc/sys/kernel/sched_tunable_scaling 0
# Reduce the maximum scheduling period for lower latency
write /proc/sys/kernel/sched_latency_ns "$SCHED_PERIOD"
# Schedule this ratio of tasks in the guarenteed sched period
write /proc/sys/kernel/sched_min_granularity_ns "$((SCHED_PERIOD / SCHED_TASKS))"
# Require preeptive tasks to surpass half of a sched period in vmruntime
write /proc/sys/kernel/sched_wakeup_granularity_ns "$((SCHED_PERIOD / 2))"
# Reduce the frequency of task migrations
write /proc/sys/kernel/sched_migration_cost_ns 5000000
# Always allow sched boosting on top-app tasks
[[ "$ANDROID" == true ]] && write /proc/sys/kernel/sched_min_task_util_for_colocation 0
# Improve real time latencies by reducing the scheduler migration time
write /proc/sys/kernel/sched_nr_migrate 32
# Disable scheduler statistics to reduce overhead
write /proc/sys/kernel/sched_schedstats 0
# Disable unnecessary printk logging
write /proc/sys/kernel/printk_devkmsg off
# Start non-blocking writeback later
write /proc/sys/vm/dirty_background_ratio 10
# Start blocking writeback later
write /proc/sys/vm/dirty_ratio 30
# Require dirty memory to stay in memory for longer
write /proc/sys/vm/dirty_expire_centisecs 3000
# Run the dirty memory flusher threads less often
write /proc/sys/vm/dirty_writeback_centisecs 3000
# Disable read-ahead for swap devices
write /proc/sys/vm/page-cluster 0
# Update /proc/stat less often to reduce jitter
write /proc/sys/vm/stat_interval 10
# Swap to the swap device at a fair rate
write /proc/sys/vm/swappiness 100
# Fairly prioritize page cache and file structures
write /proc/sys/vm/vfs_cache_pressure 100
# Enable Explicit Congestion Control
write /proc/sys/net/ipv4/tcp_ecn 1
# Enable fast socket open for receiver and sender
write /proc/sys/net/ipv4/tcp_fastopen 3
# Disable SYN cookies
write /proc/sys/net/ipv4/tcp_syncookies 0
if [[ -f "/sys/kernel/debug/sched_features" ]]
then
# Consider scheduling tasks that are eager to run
write /sys/kernel/debug/sched_features NEXT_BUDDY
# Schedule tasks on their origin CPU if possible
write /sys/kernel/debug/sched_features TTWU_QUEUE
fi
[[ "$ANDROID" == true ]] && if [[ -d "/dev/stune/" ]]
then
# We are not concerned with prioritizing latency
write /dev/stune/top-app/schedtune.prefer_idle 0
# Mark top-app as boosted, find high-performing CPUs
write /dev/stune/top-app/schedtune.boost 1
fi
# Loop over each CPU in the system
for cpu in /sys/devices/system/cpu/cpu*/cpufreq
do
# Fetch the available governors from the CPU
avail_govs="$(cat "$cpu/scaling_available_governors")"
# Attempt to set the governor in this order
for governor in schedutil interactive
do
# Once a matching governor is found, set it and break for this CPU
if [[ "$avail_govs" == *"$governor"* ]]
then
write "$cpu/scaling_governor" "$governor"
break
fi
done
done
# Apply governor specific tunables for schedutil
find /sys/devices/system/cpu/ -name schedutil -type d | while IFS= read -r governor
do
# Consider changing frequencies once per scheduling period
write "$governor/up_rate_limit_us" "$((SCHED_PERIOD / 1000))"
write "$governor/down_rate_limit_us" "$((4 * SCHED_PERIOD / 1000))"
write "$governor/rate_limit_us" "$((SCHED_PERIOD / 1000))"
# Jump to hispeed frequency at this load percentage
write "$governor/hispeed_load" 90
write "$governor/hispeed_freq" "$UINT_MAX"
done
# Apply governor specific tunables for interactive
find /sys/devices/system/cpu/ -name interactive -type d | while IFS= read -r governor
do
# Consider changing frequencies once per scheduling period
write "$governor/timer_rate" "$((SCHED_PERIOD / 1000))"
write "$governor/min_sample_time" "$((SCHED_PERIOD / 1000))"
# Jump to hispeed frequency at this load percentage
write "$governor/go_hispeed_load" 90
write "$governor/hispeed_freq" "$UINT_MAX"
done
for queue in /sys/block/*/queue
do
# Choose the first governor available
avail_scheds="$(cat "$queue/scheduler")"
for sched in cfq noop kyber bfq mq-deadline none
do
if [[ "$avail_scheds" == *"$sched"* ]]
then
write "$queue/scheduler" "$sched"
break
fi
done
# Do not use I/O as a source of randomness
write "$queue/add_random" 0
# Disable I/O statistics accounting
write "$queue/iostats" 0
# Reduce heuristic read-ahead in exchange for I/O latency
write "$queue/read_ahead_kb" 128
# Reduce the maximum number of I/O requests in exchange for latency
write "$queue/nr_requests" 64
done
# Always return success, even if the last write fails
#exit 0

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#
_SLEEPBOOT=60
RETRY_INTERVAL=${_SLEEPBOOT} #in seconds
MAX_RETRY=3
retry=${MAX_RETRY}
while (("$retry" > "0")) && [ "$(getprop sys.boot_completed)" != "1" ]; do
sleep ${RETRY_INTERVAL}
(($retry--))
done
### --------------------------------------------------
### Kraoc
### --------------------------------------------------
# Random entropy
setprop kernel.random.read_wakeup_threshold 128
setprop kernel.random.write_wakeup_threshold 896
sysctl -e -w kernel.random.read_wakeup_threshold=128
sysctl -e -w kernel.random.write_wakeup_threshold=896
# UI scale
settings put global window_animation_scale 0.25
settings put global transition_animation_scale 0.25
settings put global animator_duration_scale 0.25
### --------------------------------------------------
### Ktweaks
### --------------------------------------------------
#!/usr/bin/env bash
# Written by Draco (tytydraco @ GitHub)
# The name of the current branch for logging purposes
BRANCH="budget"
# Maximum unsigned integer size in C
UINT_MAX="4294967295"
# Duration in nanoseconds of one scheduling period
SCHED_PERIOD="$((5 * 1000 * 1000))"
# How many tasks should we have at a maximum in one scheduling period
SCHED_TASKS="5"
write() {
# Bail out if file does not exist
[[ ! -f "$1" ]] && return 1
# Make file writable in case it is not already
chmod +w "$1" 2> /dev/null
# Write the new value and bail if there's an error
if ! echo "$2" > "$1" 2> /dev/null
then
# echo "Failed: $1 → $2"
return 1
fi
# Log the success
# echo "$1 → $2"
}
## Check for root permissions and bail if not granted
#if [[ "$(id -u)" -ne 0 ]]
#then
## echo "No root permissions. Exiting."
# exit 1
#fi
# Detect if we are running on Android
#grep -q android /proc/cmdline && ANDROID=true
ANDROID=true
## Log the date and time for records sake
#echo "Time of execution: $(date)"
#echo "Branch: $BRANCH"
# Sync to data in the rare case a device crashes
#sync
# Limit max perf event processing time to this much CPU usage
write /proc/sys/kernel/perf_cpu_time_max_percent 2
# Group tasks for less stutter but less throughput
write /proc/sys/kernel/sched_autogroup_enabled 1
# Execute child process before parent after fork
write /proc/sys/kernel/sched_child_runs_first 0
# Preliminary requirement for the following values
write /proc/sys/kernel/sched_tunable_scaling 0
# Reduce the maximum scheduling period for lower latency
write /proc/sys/kernel/sched_latency_ns "$SCHED_PERIOD"
# Schedule this ratio of tasks in the guarenteed sched period
write /proc/sys/kernel/sched_min_granularity_ns "$((SCHED_PERIOD / SCHED_TASKS))"
# Require preeptive tasks to surpass half of a sched period in vmruntime
write /proc/sys/kernel/sched_wakeup_granularity_ns "$((SCHED_PERIOD / 2))"
# Reduce the frequency of task migrations
write /proc/sys/kernel/sched_migration_cost_ns 5000000
# Always allow sched boosting on top-app tasks
[[ "$ANDROID" == true ]] && write /proc/sys/kernel/sched_min_task_util_for_colocation 0
# Give up some latency to give the CPU a break
write /proc/sys/kernel/sched_nr_migrate 256
# Disable scheduler statistics to reduce overhead
write /proc/sys/kernel/sched_schedstats 0
# Disable unnecessary printk logging
write /proc/sys/kernel/printk_devkmsg off
# Budget devices are low-ram devices, don't let this build up
write /proc/sys/vm/dirty_background_ratio 2
# Flush completely when this much of the device is fulled
write /proc/sys/vm/dirty_ratio 5
# Expire dirty memory very early
write /proc/sys/vm/dirty_expire_centisecs 500
# Run the dirty memory flusher threads more often
write /proc/sys/vm/dirty_writeback_centisecs 500
# Disable read-ahead for swap devices
write /proc/sys/vm/page-cluster 0
# Update /proc/stat less often to reduce jitter
write /proc/sys/vm/stat_interval 10
# Swap to the swap device at a fair rate
write /proc/sys/vm/swappiness 100
# Fairly prioritize page cache and file structures
write /proc/sys/vm/vfs_cache_pressure 100
# Enable Explicit Congestion Control
write /proc/sys/net/ipv4/tcp_ecn 1
# Enable fast socket open for receiver and sender
write /proc/sys/net/ipv4/tcp_fastopen 3
# Disable SYN cookies
write /proc/sys/net/ipv4/tcp_syncookies 0
if [[ -f "/sys/kernel/debug/sched_features" ]]
then
# Consider scheduling tasks that are eager to run
write /sys/kernel/debug/sched_features NEXT_BUDDY
# Prioritize power over cache hits
write /sys/kernel/debug/sched_features NO_TTWU_QUEUE
fi
[[ "$ANDROID" == true ]] && if [[ -d "/dev/stune/" ]]
then
# We are not concerned with prioritizing latency
write /dev/stune/top-app/schedtune.prefer_idle 0
# Don't boost foreground tasks, let the governor handle it
write /dev/stune/top-app/schedtune.boost 0
fi
# Loop over each CPU in the system
for cpu in /sys/devices/system/cpu/cpu*/cpufreq
do
# Fetch the available governors from the CPU
avail_govs="$(cat "$cpu/scaling_available_governors")"
# Attempt to set the governor in this order
for governor in schedutil interactive
do
# Once a matching governor is found, set it and break for this CPU
if [[ "$avail_govs" == *"$governor"* ]]
then
write "$cpu/scaling_governor" "$governor"
break
fi
done
done
# Apply governor specific tunables for schedutil
find /sys/devices/system/cpu/ -name schedutil -type d | while IFS= read -r governor
do
# Consider changing frequencies once per scheduling period
write "$governor/up_rate_limit_us" "$((SCHED_PERIOD / 1000))"
write "$governor/down_rate_limit_us" "$((SCHED_PERIOD / 1000))"
write "$governor/rate_limit_us" "$((SCHED_PERIOD / 1000))"
# Jump to hispeed frequency at this load percentage
write "$governor/hispeed_load" 99
write "$governor/hispeed_freq" "$UINT_MAX"
done
# Apply governor specific tunables for interactive
find /sys/devices/system/cpu/ -name interactive -type d | while IFS= read -r governor
do
# Consider changing frequencies once per scheduling period
write "$governor/timer_rate" "$((SCHED_PERIOD / 1000))"
write "$governor/min_sample_time" "$((SCHED_PERIOD / 1000))"
# Jump to hispeed frequency at this load percentage
write "$governor/go_hispeed_load" 99
write "$governor/hispeed_freq" "$UINT_MAX"
done
for queue in /sys/block/*/queue
do
# Choose the first governor available
avail_scheds="$(cat "$queue/scheduler")"
for sched in cfq noop kyber bfq mq-deadline none
do
if [[ "$avail_scheds" == *"$sched"* ]]
then
write "$queue/scheduler" "$sched"
break
fi
done
# Do not use I/O as a source of randomness
write "$queue/add_random" 0
# Disable I/O statistics accounting
write "$queue/iostats" 0
# Reduce heuristic read-ahead in exchange for I/O latency
write "$queue/read_ahead_kb" 64
# Increase maximum requests to reduce processing power
write "$queue/nr_requests" 512
done
# Always return success, even if the last write fails
#exit 0

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#
_SLEEPBOOT=60
RETRY_INTERVAL=${_SLEEPBOOT} #in seconds
MAX_RETRY=3
retry=${MAX_RETRY}
while (("$retry" > "0")) && [ "$(getprop sys.boot_completed)" != "1" ]; do
sleep ${RETRY_INTERVAL}
(($retry--))
done
### --------------------------------------------------
### Kraoc
### --------------------------------------------------
# Random entropy
setprop kernel.random.read_wakeup_threshold 128
setprop kernel.random.write_wakeup_threshold 896
sysctl -e -w kernel.random.read_wakeup_threshold=128
sysctl -e -w kernel.random.write_wakeup_threshold=896
# UI scale
settings put global window_animation_scale 0.25
settings put global transition_animation_scale 0.25
settings put global animator_duration_scale 0.25
### --------------------------------------------------
### Ktweaks
### --------------------------------------------------
#!/usr/bin/env bash
# Written by Draco (tytydraco @ GitHub)
# The name of the current branch for logging purposes
BRANCH="latency"
# Maximum unsigned integer size in C
UINT_MAX="4294967295"
# Duration in nanoseconds of one scheduling period
SCHED_PERIOD="$((1 * 1000 * 1000))"
# How many tasks should we have at a maximum in one scheduling period
SCHED_TASKS="10"
write() {
# Bail out if file does not exist
[[ ! -f "$1" ]] && return 1
# Make file writable in case it is not already
chmod +w "$1" 2> /dev/null
# Write the new value and bail if there's an error
if ! echo "$2" > "$1" 2> /dev/null
then
# echo "Failed: $1 → $2"
return 1
fi
# Log the success
# echo "$1 → $2"
}
## Check for root permissions and bail if not granted
#if [[ "$(id -u)" -ne 0 ]]
#then
## echo "No root permissions. Exiting."
# exit 1
#fi
# Detect if we are running on Android
#grep -q android /proc/cmdline && ANDROID=true
ANDROID=true
# Log the date and time for records sake
#echo "Time of execution: $(date)"
#echo "Branch: $BRANCH"
# Sync to data in the rare case a device crashes
#sync
# Limit max perf event processing time to this much CPU usage
write /proc/sys/kernel/perf_cpu_time_max_percent 3
# Group tasks for less stutter but less throughput
write /proc/sys/kernel/sched_autogroup_enabled 1
# Execute child process before parent after fork
write /proc/sys/kernel/sched_child_runs_first 1
# Preliminary requirement for the following values
write /proc/sys/kernel/sched_tunable_scaling 0
# Reduce the maximum scheduling period for lower latency
write /proc/sys/kernel/sched_latency_ns "$SCHED_PERIOD"
# Schedule this ratio of tasks in the guarenteed sched period
write /proc/sys/kernel/sched_min_granularity_ns "$((SCHED_PERIOD / SCHED_TASKS))"
# Require preeptive tasks to surpass half of a sched period in vmruntime
write /proc/sys/kernel/sched_wakeup_granularity_ns "$((SCHED_PERIOD / 2))"
# Reduce the frequency of task migrations
write /proc/sys/kernel/sched_migration_cost_ns 5000000
# Always allow sched boosting on top-app tasks
[[ "$ANDROID" == true ]] && write /proc/sys/kernel/sched_min_task_util_for_colocation 0
# Improve real time latencies by reducing the scheduler migration time
write /proc/sys/kernel/sched_nr_migrate 4
# Disable scheduler statistics to reduce overhead
write /proc/sys/kernel/sched_schedstats 0
# Disable unnecessary printk logging
write /proc/sys/kernel/printk_devkmsg off
# Start non-blocking writeback later
write /proc/sys/vm/dirty_background_ratio 3
# Start blocking writeback later
write /proc/sys/vm/dirty_ratio 30
# Require dirty memory to stay in memory for longer
write /proc/sys/vm/dirty_expire_centisecs 3000
# Run the dirty memory flusher threads less often
write /proc/sys/vm/dirty_writeback_centisecs 3000
# Disable read-ahead for swap devices
write /proc/sys/vm/page-cluster 0
# Update /proc/stat less often to reduce jitter
write /proc/sys/vm/stat_interval 10
# Swap to the swap device at a fair rate
write /proc/sys/vm/swappiness 100
# Prioritize page cache over simple file structure nodes
write /proc/sys/vm/vfs_cache_pressure 200
# Enable Explicit Congestion Control
write /proc/sys/net/ipv4/tcp_ecn 1
# Enable fast socket open for receiver and sender
write /proc/sys/net/ipv4/tcp_fastopen 3
# Disable SYN cookies
write /proc/sys/net/ipv4/tcp_syncookies 0
if [[ -f "/sys/kernel/debug/sched_features" ]]
then
# Consider scheduling tasks that are eager to run
write /sys/kernel/debug/sched_features NEXT_BUDDY
# Some sources report large latency spikes during large migrations
write /sys/kernel/debug/sched_features NO_TTWU_QUEUE
fi
[[ "$ANDROID" == true ]] && if [[ -d "/dev/stune/" ]]
then
# Prefer to schedule top-app tasks on idle CPUs
write /dev/stune/top-app/schedtune.prefer_idle 1
# Mark top-app as boosted, find high-performing CPUs
write /dev/stune/top-app/schedtune.boost 1
fi
# Loop over each CPU in the system
for cpu in /sys/devices/system/cpu/cpu*/cpufreq
do
# Fetch the available governors from the CPU
avail_govs="$(cat "$cpu/scaling_available_governors")"
# Attempt to set the governor in this order
for governor in schedutil interactive
do
# Once a matching governor is found, set it and break for this CPU
if [[ "$avail_govs" == *"$governor"* ]]
then
write "$cpu/scaling_governor" "$governor"
break
fi
done
done
# Apply governor specific tunables for schedutil
find /sys/devices/system/cpu/ -name schedutil -type d | while IFS= read -r governor
do
# Consider changing frequencies once per scheduling period
write "$governor/up_rate_limit_us" 0
write "$governor/down_rate_limit_us" 0
write "$governor/rate_limit_us" 0
# Jump to hispeed frequency at this load percentage
write "$governor/hispeed_load" 85
write "$governor/hispeed_freq" "$UINT_MAX"
done
# Apply governor specific tunables for interactive
find /sys/devices/system/cpu/ -name interactive -type d | while IFS= read -r governor
do
# Consider changing frequencies once per scheduling period
write "$governor/timer_rate" 0
write "$governor/min_sample_time" 0
# Jump to hispeed frequency at this load percentage
write "$governor/go_hispeed_load" 85
write "$governor/hispeed_freq" "$UINT_MAX"
done
for queue in /sys/block/*/queue
do
# Choose the first governor available
avail_scheds="$(cat "$queue/scheduler")"
for sched in cfq noop kyber bfq mq-deadline none
do
if [[ "$avail_scheds" == *"$sched"* ]]
then
write "$queue/scheduler" "$sched"
break
fi
done
# Do not use I/O as a source of randomness
write "$queue/add_random" 0
# Disable I/O statistics accounting
write "$queue/iostats" 0
# Reduce heuristic read-ahead in exchange for I/O latency
write "$queue/read_ahead_kb" 32
# Reduce the maximum number of I/O requests in exchange for latency
write "$queue/nr_requests" 32
done
# Always return success, even if the last write fails
#exit 0

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#
_SLEEPBOOT=60
RETRY_INTERVAL=${_SLEEPBOOT} #in seconds
MAX_RETRY=3
retry=${MAX_RETRY}
while (("$retry" > "0")) && [ "$(getprop sys.boot_completed)" != "1" ]; do
sleep ${RETRY_INTERVAL}
(($retry--))
done
### --------------------------------------------------
### Kraoc
### --------------------------------------------------
# Random entropy
setprop kernel.random.read_wakeup_threshold 128
setprop kernel.random.write_wakeup_threshold 896
sysctl -e -w kernel.random.read_wakeup_threshold=128
sysctl -e -w kernel.random.write_wakeup_threshold=896
# UI scale
settings put global window_animation_scale 0.25
settings put global transition_animation_scale 0.25
settings put global animator_duration_scale 0.25
### --------------------------------------------------
### Ktweaks
### --------------------------------------------------
#!/usr/bin/env bash
# Written by Draco (tytydraco @ GitHub)
# The name of the current branch for logging purposes
BRANCH="throughput"
# Maximum unsigned integer size in C
UINT_MAX="4294967295"
# Duration in nanoseconds of one scheduling period
SCHED_PERIOD="$((10 * 1000 * 1000))"
# How many tasks should we have at a maximum in one scheduling period
SCHED_TASKS="6"
write() {
# Bail out if file does not exist
[[ ! -f "$1" ]] && return 1
# Make file writable in case it is not already
chmod +w "$1" 2> /dev/null
# Write the new value and bail if there's an error
if ! echo "$2" > "$1" 2> /dev/null
then
# echo "Failed: $1 → $2"
return 1
fi
# Log the success
# echo "$1 → $2"
}
## Check for root permissions and bail if not granted
#if [[ "$(id -u)" -ne 0 ]]
#then
## echo "No root permissions. Exiting."
# exit 1
#fi
# Detect if we are running on Android
#grep -q android /proc/cmdline && ANDROID=true
ANDROID=true
## Log the date and time for records sake
#echo "Time of execution: $(date)"
#echo "Branch: $BRANCH"
# Sync to data in the rare case a device crashes
#sync
# Limit max perf event processing time to this much CPU usage
write /proc/sys/kernel/perf_cpu_time_max_percent 20
# Sacrifice latency for throughput when grouping tasks
write /proc/sys/kernel/sched_autogroup_enabled 0
# Process child-parent forks naturally
write /proc/sys/kernel/sched_child_runs_first 0
# Preliminary requirement for the following values
write /proc/sys/kernel/sched_tunable_scaling 0
# Reduce the maximum scheduling period for lower latency
write /proc/sys/kernel/sched_latency_ns "$SCHED_PERIOD"
# Schedule this ratio of tasks in the guarenteed sched period
write /proc/sys/kernel/sched_min_granularity_ns "$((SCHED_PERIOD / SCHED_TASKS))"
# Require preeptive tasks to surpass half of a sched period in vmruntime
write /proc/sys/kernel/sched_wakeup_granularity_ns "$((SCHED_PERIOD / 2))"
# Reduce the frequency of task migrations
write /proc/sys/kernel/sched_migration_cost_ns 5000000
# Always allow sched boosting on top-app tasks
[[ "$ANDROID" == true ]] && write /proc/sys/kernel/sched_min_task_util_for_colocation 0
# Improve real time latencies by reducing the scheduler migration time
write /proc/sys/kernel/sched_nr_migrate 128
# Disable scheduler statistics to reduce overhead
write /proc/sys/kernel/sched_schedstats 0
# Disable unnecessary printk logging
write /proc/sys/kernel/printk_devkmsg off
# Start non-blocking writeback later
write /proc/sys/vm/dirty_background_ratio 15
# Start blocking writeback later
write /proc/sys/vm/dirty_ratio 30
# Require dirty memory to stay in memory for longer
write /proc/sys/vm/dirty_expire_centisecs 3000
# Run the dirty memory flusher threads less often
write /proc/sys/vm/dirty_writeback_centisecs 3000
# Disable read-ahead for swap devices
write /proc/sys/vm/page-cluster 0
# Update /proc/stat less often to reduce jitter
write /proc/sys/vm/stat_interval 10
# Swap to the swap device at a fair rate
write /proc/sys/vm/swappiness 100
# Allow inodes and dentries to build up a larger cache
write /proc/sys/vm/vfs_cache_pressure 80
# Enable Explicit Congestion Control
write /proc/sys/net/ipv4/tcp_ecn 1
# Enable fast socket open for receiver and sender
write /proc/sys/net/ipv4/tcp_fastopen 3
# Disable SYN cookies
write /proc/sys/net/ipv4/tcp_syncookies 0
if [[ -f "/sys/kernel/debug/sched_features" ]]
then
# Consider scheduling tasks that are eager to run
write /sys/kernel/debug/sched_features NEXT_BUDDY
# Schedule tasks on their origin CPU if possible
write /sys/kernel/debug/sched_features TTWU_QUEUE
fi
[[ "$ANDROID" == true ]] && if [[ -d "/dev/stune/" ]]
then
# We are not concerned with prioritizing latency
write /dev/stune/top-app/schedtune.prefer_idle 0
# Mark top-app as boosted, find high-performing CPUs
write /dev/stune/top-app/schedtune.boost 1
fi
# Loop over each CPU in the system
for cpu in /sys/devices/system/cpu/cpu*/cpufreq
do
# Fetch the available governors from the CPU
avail_govs="$(cat "$cpu/scaling_available_governors")"
# Attempt to set the governor in this order
for governor in schedutil interactive
do
# Once a matching governor is found, set it and break for this CPU
if [[ "$avail_govs" == *"$governor"* ]]
then
write "$cpu/scaling_governor" "$governor"
break
fi
done
done
# Apply governor specific tunables for schedutil
find /sys/devices/system/cpu/ -name schedutil -type d | while IFS= read -r governor
do
# Consider changing frequencies once per scheduling period
write "$governor/up_rate_limit_us" "$((SCHED_PERIOD / 1000))"
write "$governor/down_rate_limit_us" "$((4 * SCHED_PERIOD / 1000))"
write "$governor/rate_limit_us" "$((SCHED_PERIOD / 1000))"
# Jump to hispeed frequency at this load percentage
write "$governor/hispeed_load" 85
write "$governor/hispeed_freq" "$UINT_MAX"
done
# Apply governor specific tunables for interactive
find /sys/devices/system/cpu/ -name interactive -type d | while IFS= read -r governor
do
# Consider changing frequencies once per scheduling period
write "$governor/timer_rate" "$((SCHED_PERIOD / 1000))"
write "$governor/min_sample_time" "$((SCHED_PERIOD / 1000))"
# Jump to hispeed frequency at this load percentage
write "$governor/go_hispeed_load" 85
write "$governor/hispeed_freq" "$UINT_MAX"
done
for queue in /sys/block/*/queue
do
# Choose the first governor available
avail_scheds="$(cat "$queue/scheduler")"
for sched in cfq noop kyber bfq mq-deadline none
do
if [[ "$avail_scheds" == *"$sched"* ]]
then
write "$queue/scheduler" "$sched"
break
fi
done
# Do not use I/O as a source of randomness
write "$queue/add_random" 0
# Disable I/O statistics accounting
write "$queue/iostats" 0
# Sacrifice I/O and memory efficiency for a possible throughput gain
write "$queue/read_ahead_kb" 256
# Buffer more requests at once
write "$queue/nr_requests" 512
done
# Always return success, even if the last write fails
#exit 0

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##########################################################################################
#
# MMT Extended Config Script
#
##########################################################################################
##########################################################################################
# Config Flags
##########################################################################################
# Uncomment and change 'MINAPI' and 'MAXAPI' to the minimum and maximum android version for your mod
# Uncomment DYNLIB if you want libs installed to vendor for oreo+ and system for anything older
# Uncomment PARTOVER if you have a workaround in place for extra partitions in regular magisk install (can mount them yourself - you will need to do this each boot as well). If unsure, keep commented
# Uncomment PARTITIONS and list additional partitions you will be modifying (other than system and vendor), for example: PARTITIONS="/odm /product /system_ext"
#MINAPI=21
#MAXAPI=25
#DYNLIB=true
#PARTOVER=true
#PARTITIONS=""
# Android 10
MINAPI=29
##########################################################################################
# Replace list
##########################################################################################
# List all directories you want to directly replace in the system
# Check the documentations for more info why you would need this
# Construct your list in the following format
# This is an example
REPLACE_EXAMPLE="
/system/app/Youtube
/system/priv-app/SystemUI
/system/priv-app/Settings
/system/framework
"
# Construct your own list here
REPLACE="
"
##########################################################################################
# Permissions
##########################################################################################
set_permissions() {
: # Remove this if adding to this function
# Note that all files/folders in magisk module directory have the $MODPATH prefix - keep this prefix on all of your files/folders
# Some examples:
# For directories (includes files in them):
# set_perm_recursive <dirname> <owner> <group> <dirpermission> <filepermission> <contexts> (default: u:object_r:system_file:s0)
# set_perm_recursive $MODPATH/system/lib 0 0 0755 0644
# set_perm_recursive $MODPATH/system/vendor/lib/soundfx 0 0 0755 0644
# For files (not in directories taken care of above)
# set_perm <filename> <owner> <group> <permission> <contexts> (default: u:object_r:system_file:s0)
# set_perm $MODPATH/system/lib/libart.so 0 0 0644
# set_perm /data/local/tmp/file.txt 0 0 644
}
##########################################################################################
# MMT Extended Logic - Don't modify anything after this
##########################################################################################
SKIPUNZIP=1
unzip -qjo "$ZIPFILE" 'common/functions.sh' -d $TMPDIR >&2
. $TMPDIR/functions.sh

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id=oiot
name=
version=v2023.12.02
versionCode=20231202
author=Kraoc
description=Magisk Module for Tweaks
updateJson=

244
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#
# Service Mode
#
# Disable module on next boot
#touch $MODPATH/disable
#_SLEEPBOOT=60
#RETRY_INTERVAL=${_SLEEPBOOT} #in seconds
#MAX_RETRY=3
#retry=${MAX_RETRY}
#while (("$retry" > "0")) && [ "$(getprop sys.boot_completed)" != "1" ]; do
# sleep ${RETRY_INTERVAL}
# (($retry--))
#done
### --------------------------------------------------
### Optmzr
### --------------------------------------------------
# Random Entropy
setprop kernel.random.read_wakeup_threshold 128
setprop kernel.random.write_wakeup_threshold 896
sysctl -e -w kernel.random.read_wakeup_threshold=128
sysctl -e -w kernel.random.write_wakeup_threshold=896
# UI Scale
settings put global window_animation_scale 0.0
settings put global transition_animation_scale 0.0
settings put global animator_duration_scale 0.0
### --------------------------------------------------
### Ktweaks
### --------------------------------------------------
#!/usr/bin/env bash
# Written by Draco (tytydraco @ GitHub)
# The name of the current branch for logging purposes
BRANCH="balance"
# Maximum unsigned integer size in C
UINT_MAX="4294967295"
# Duration in nanoseconds of one scheduling period
SCHED_PERIOD="$((4 * 1000 * 1000))"
# How many tasks should we have at a maximum in one scheduling period
SCHED_TASKS="8"
write() {
# Bail out if file does not exist
[[ ! -f "$1" ]] && return 1
# Make file writable in case it is not already
chmod +w "$1" 2> /dev/null
# Write the new value and bail if there's an error
if ! echo "$2" > "$1" 2> /dev/null
then
# echo "Failed: $1 → $2"
return 1
fi
# Log the success
# echo "$1 → $2"
}
## Check for root permissions and bail if not granted
#if [[ "$(id -u)" -ne 0 ]]
#then
## echo "No root permissions. Exiting."
# exit 1
#fi
# Detect if we are running on Android
#grep -q android /proc/cmdline && ANDROID=true
ANDROID=true
## Log the date and time for records sake
#echo "Time of execution: $(date)"
#echo "Branch: $BRANCH"
# Sync to data in the rare case a device crashes
#sync
# Limit max perf event processing time to this much CPU usage
write /proc/sys/kernel/perf_cpu_time_max_percent 5
# Group tasks for less stutter but less throughput
write /proc/sys/kernel/sched_autogroup_enabled 1
# Execute child process before parent after fork
write /proc/sys/kernel/sched_child_runs_first 1
# Preliminary requirement for the following values
write /proc/sys/kernel/sched_tunable_scaling 0
# Reduce the maximum scheduling period for lower latency
write /proc/sys/kernel/sched_latency_ns "$SCHED_PERIOD"
# Schedule this ratio of tasks in the guarenteed sched period
write /proc/sys/kernel/sched_min_granularity_ns "$((SCHED_PERIOD / SCHED_TASKS))"
# Require preeptive tasks to surpass half of a sched period in vmruntime
write /proc/sys/kernel/sched_wakeup_granularity_ns "$((SCHED_PERIOD / 2))"
# Reduce the frequency of task migrations
write /proc/sys/kernel/sched_migration_cost_ns 5000000
# Always allow sched boosting on top-app tasks
[[ "$ANDROID" == true ]] && write /proc/sys/kernel/sched_min_task_util_for_colocation 0
# Improve real time latencies by reducing the scheduler migration time
write /proc/sys/kernel/sched_nr_migrate 32
# Disable scheduler statistics to reduce overhead
write /proc/sys/kernel/sched_schedstats 0
# Disable unnecessary printk logging
write /proc/sys/kernel/printk_devkmsg off
# Start non-blocking writeback later
write /proc/sys/vm/dirty_background_ratio 10
# Start blocking writeback later
write /proc/sys/vm/dirty_ratio 30
# Require dirty memory to stay in memory for longer
write /proc/sys/vm/dirty_expire_centisecs 3000
# Run the dirty memory flusher threads less often
write /proc/sys/vm/dirty_writeback_centisecs 3000
# Disable read-ahead for swap devices
write /proc/sys/vm/page-cluster 0
# Update /proc/stat less often to reduce jitter
write /proc/sys/vm/stat_interval 10
# Swap to the swap device at a fair rate
write /proc/sys/vm/swappiness 100
# Fairly prioritize page cache and file structures
write /proc/sys/vm/vfs_cache_pressure 100
# Enable Explicit Congestion Control
write /proc/sys/net/ipv4/tcp_ecn 1
# Enable fast socket open for receiver and sender
write /proc/sys/net/ipv4/tcp_fastopen 3
# Disable SYN cookies
write /proc/sys/net/ipv4/tcp_syncookies 0
if [[ -f "/sys/kernel/debug/sched_features" ]]
then
# Consider scheduling tasks that are eager to run
write /sys/kernel/debug/sched_features NEXT_BUDDY
# Schedule tasks on their origin CPU if possible
write /sys/kernel/debug/sched_features TTWU_QUEUE
fi
[[ "$ANDROID" == true ]] && if [[ -d "/dev/stune/" ]]
then
# We are not concerned with prioritizing latency
write /dev/stune/top-app/schedtune.prefer_idle 0
# Mark top-app as boosted, find high-performing CPUs
write /dev/stune/top-app/schedtune.boost 1
fi
# Loop over each CPU in the system
for cpu in /sys/devices/system/cpu/cpu*/cpufreq
do
# Fetch the available governors from the CPU
avail_govs="$(cat "$cpu/scaling_available_governors")"
# Attempt to set the governor in this order
for governor in schedutil interactive
do
# Once a matching governor is found, set it and break for this CPU
if [[ "$avail_govs" == *"$governor"* ]]
then
write "$cpu/scaling_governor" "$governor"
break
fi
done
done
# Apply governor specific tunables for schedutil
find /sys/devices/system/cpu/ -name schedutil -type d | while IFS= read -r governor
do
# Consider changing frequencies once per scheduling period
write "$governor/up_rate_limit_us" "$((SCHED_PERIOD / 1000))"
write "$governor/down_rate_limit_us" "$((4 * SCHED_PERIOD / 1000))"
write "$governor/rate_limit_us" "$((SCHED_PERIOD / 1000))"
# Jump to hispeed frequency at this load percentage
write "$governor/hispeed_load" 90
write "$governor/hispeed_freq" "$UINT_MAX"
done
# Apply governor specific tunables for interactive
find /sys/devices/system/cpu/ -name interactive -type d | while IFS= read -r governor
do
# Consider changing frequencies once per scheduling period
write "$governor/timer_rate" "$((SCHED_PERIOD / 1000))"
write "$governor/min_sample_time" "$((SCHED_PERIOD / 1000))"
# Jump to hispeed frequency at this load percentage
write "$governor/go_hispeed_load" 90
write "$governor/hispeed_freq" "$UINT_MAX"
done
for queue in /sys/block/*/queue
do
# Choose the first governor available
avail_scheds="$(cat "$queue/scheduler")"
for sched in cfq noop kyber bfq mq-deadline none
do
if [[ "$avail_scheds" == *"$sched"* ]]
then
write "$queue/scheduler" "$sched"
break
fi
done
# Do not use I/O as a source of randomness
write "$queue/add_random" 0
# Disable I/O statistics accounting
write "$queue/iostats" 0
# Reduce heuristic read-ahead in exchange for I/O latency
write "$queue/read_ahead_kb" 128
# Reduce the maximum number of I/O requests in exchange for latency
write "$queue/nr_requests" 64
done
# Always return success, even if the last write fails
#exit 0

247
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#
# Optmzr
#
# Dalvik/ART (base)
dalvik.vm.image-dex2oat-flags=speed
dalvik.vm.image-dex2oat-filter=everything
dalvik.vm.dex2oat-filter=everything
dalvik.vm.usejit=true
dalvik.vm.usejitprofiles=true
dalvik.vm.dexopt.secondary=true
pm.dexopt.first-boot=speed
pm.dexopt.boot-after-ota=speed
pm.dexopt.post-boot=extract
pm.dexopt.install=speed
pm.dexopt.install-fast=speed-profile
pm.dexopt.install-bulk=speed
pm.dexopt.install-bulk-secondary=speed
pm.dexopt.install-bulk-downgraded=speed
pm.dexopt.install-bulk-secondary-downgraded=extract
pm.dexopt.bg-dexopt=speed-profile
pm.dexopt.ab-ota=speed-profile
pm.dexopt.inactive=speed-profile
pm.dexopt.shared=speed
dalvik.vm.dex2oat-resolve-startup-strings=true
# Multitasking
ro.sys.fw.bservice_enable=true
ro.vendor.qti.sys.fw.bservice_enable=true
ro.sys.fw.bservice_age=5000
ro.vendor.qti.sys.fw.bservice_age=5000
ro.sys.fw.bg_apps_limit=128
ro.sys.fw.bservice_limit=128
ro.vendor.qti.sys.fw.bg_apps_limit=128
ro.vendor.qti.sys.fw.bservice_limit=128
ro.config.sdha_apps_bg_max=128
ro.config.max_starting_bg=64
# Random
kernel.random.read_wakeup_threshold=128
kernel.random.write_wakeup_threshold=896
# Image quality
ro.media.enc.jpeg.quality=100
# Volume
ro.config.vc_call_steps=30
ro.config.vc_call_vol_steps=30
ro.config.media_vol_steps=30
# Voice Call Clarity
ro.ril.enable.amr.wideband=1
# Google assistant
ro.opa.eligible_device=true
# Memory
persist.sys.shutdown.mode=hibernate
ro.warmboot.capability=1
#
# Mobile
#
# Signal cheating
persist.sys.oem_smooth=1
persist.vendor.radio.ignore_dom_time=0
persist.vendor.radio.rat_on=combine
persist.data.iwlan.enable=true
persist.vendor.radio.data_ltd_sys_ind=1
persist.vendor.radio.data_con_rprt=1
# ECC call
persist.radio.enhance_ecall=true
# Tethering
net.tethering.noprovisioning=true
# Combined signal
ro.config.combined_signal=true
# SMS
ro.telephony.sms_segment_size=160
# Radio
persist.data.qmi.adb_logmask=0
persist.radio.apm_sim_not_pwdn=1
persist.radio.data_no_toggle=1
persist.radio.no_wait_for_card=1
persist.radio.sib16_support=1
persist.radio.alt_mbn_name=tmo_alt.mbn
persist.radio.fsg_reload_on=1
persist.radio.oem_socket=false
persist.radio.mcfg_enabled=1
persist.qcril_uim_vcc_feature=1
# VoLTE/VoWifi
telephony.lteOnCdmaDevice=1
net.lte.volte_call_capable=1
persist.sys.cust.lte_config=1
persist.data.iwlan.enable=1
persist.lg.data.iwlan.enable=1
persist.ims.volte=1
persist.dbg.ims_volte_enable=1
persist.dbg.volte_avail_ovr=1
persist.dbg.vt_avail_ovr=1
persist.dbg.wfc_avail_ovr=1
persist.data.iwlan=1
persist.data.iwlan.enable=1
persist.data.iwlan.ipsec.ap=1
persist.lg.data.iwlan=1
persist.lg.data.iwlan.ipsec.ap=1
service.qti.ims.enabled=1
persist.volte_enabled_by_hw=1
persist.radio.volte.dan_support=1
persist.radio.rat_on=combine
persist.radio.data_ltd_sys_ind=1
persist.radio.data_con_rprt=1
persist.radio.calls.on.ims=1
persist.radio.csvt.enabled=true
persist.radio.jbims=1
persist.radio.ROTATION_ENABLE=1
persist.radio.VT_ENABLE=1
persist.radio.VT_HYBRID_ENABLE=1
persist.radio.VT_USE_MDM_TIME=1
persist.radio.ignore_ims_wlan=1
ro.lge.radio_gpri=1
ro.lge.amrwb_gpri=1
# 3G/4G
ro.ril.gprsclass=12
ro.ril.hsdpa.category=14
ro.ril.hsupa.category=6
ro.ril.hsxpa=5
ro.ril.enable.dtm=1
ro.ril.enable.a52=1
ro.ril.enable.a53=1
ro.ril.enable.3g.prefix=1
ro.ril.enable.amr.wideband=1
ro.ril.htcmaskw1.bitmask=4294967295
ro.ril.htcmaskw1=268449905
ro.ril.set.mtu1472=1
ro.ril.fast.dormancy.rule=1
ro.fast.dormancy=1
ro.config.hw_fast_dormancy=0
ro.ril.enable.sdr=1
ro.ril.enable.gea3=1
ro.ril.enable.fd.plmn.prefix=23402,23410,23411
ro.semc.enable.fast_dormancy=false
ro.ril.def.agps.feature=1
ro.ril.def.agps.mode=2
persist.cust.tel.eons=1
persist.radio.add_power_save=1
persist.radio.fill_eons=1
persist.ril.uart.flowctrl=10
#
# Network
#
# Better signal
persist.cust.tel.eons=1
persist.radio.fill_eons=1
ro.config.hw_fast_dormancy=1
# ECC call
persist.radio.enhance_ecall=true
# Combined signal
ro.config.combined_signal=true
# IPv4
persist.telephony.support.ipv4=1
net.ipv4.tcp_rfc1337=1
net.ipv4.tcp_timestamps=1
net.ipv4.tcp_window_scaling=1
net.ipv4.tcp_sack=1
net.ipv4.tcp_fack=1
net.ipv4.tcp_dsack=1
net.ipv4.min_pmtu=68
net.ipv4.tcp_tw_reuse=1
net.ipv4.tcp_tw_recycle=1
net.ipv4.tcp_keepalive_time=300
net.ipv4.tcp_keepalive_probes=5
net.ipv4.tcp_keepalive_intvl=15
net.ipv4.ip_default_ttl=65
net.ipv4.tcp_ecn=2
net.ipv4.tcp_reordering=3
net.ipv4.icmp_ignore_bogus_error_responses=1
net.ipv4.tcp_retries1=3
net.ipv4.tcp_retries2=15
net.ipv4.tcp_syn_retries=2
net.ipv4.tcp_synack_retries=2
net.ipv4.xfrm4_gc_thresh=131072
net.ipv4.tcp_max_syn_backlog=4096
net.ipv4.tcp_max_tw_buckets=1440000
net.ipv4.tcp_no_metrics_save=1
# TCP buffers
net.tcp.buffersize.default=4096,87380,256960,4096,16384,256960
net.tcp.buffersize.gprs=4096,87380,256960,4096,16384,256960
net.tcp.buffersize.umts=4096,87380,256960,4096,16384,256960
net.tcp.buffersize.edge=4096,87380,256960,4096,16384,256960
net.tcp.buffersize.hspa=4096,87380,256960,4096,16384,256960
net.tcp.buffersize.hspap=4096,87380,1220608,4096,16384,393216
net.tcp.buffersize.hspda=4096,87380,256960,4096,16384,256960
net.tcp.buffersize.hsupa=4096,87380,256960,4096,16384,256960
net.tcp.buffersize.evdo=4096,87380,563200,4096,16384,262144
net.tcp.buffersize.hsdpa=6144,262144,1048576,6144,262144,1048576
net.tcp.buffersize.evdo_b=6144,262144,1048576,6144,262144,1048576
net.tcp.buffersize.lte=262144,524288,3145728,262144,524288,3145728
net.tcp.buffersize.wifi=4096,87380,256960,4096,16384,256960
# Streaming
media.stagefright.enable-aac=true
media.stagefright.enable-http=true
media.stagefright.enable-meta=true
media.stagefright.enable-player=true
media.stagefright.enable-qcp=true
media.stagefright.enable-record=true
media.stagefright.enable-rtsp=true
media.stagefright.enable-scan=true
media.stagefright.enable-fma2dp=true
media.aac_51_output_enabled=true
persist.mm.enable.prefetch=true
mmp.enable.3g2=true
# Wifi
wifi.supplicant_scan_interval=180
ro.wifi.channels=13
# Bluetooth
ro.qualcomm.bluetooth.pbap=true
ro.qualcomm.bluetooth.ftp=true
ro.qualcomm.bluetooth.nap=true
ro.qualcomm.bluetooth.opp=true
ro.qualcomm.bluetooth.hfp=true
ro.qualcomm.bluetooth.hsp=true
ro.qualcomm.bluetooth.map=true
ro.bluetooth.sap=true
ro.bluetooth.dun=true
persist.bt.enableAptXHD=true
persist.service.btui.use_aptx=1

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# Don't modify anything after this
if [ -f $INFO ]; then
while read LINE; do
if [ "$(echo -n $LINE | tail -c 1)" == "~" ]; then
continue
elif [ -f "$LINE~" ]; then
mv -f $LINE~ $LINE
else
rm -f $LINE
while true; do
LINE=$(dirname $LINE)
[ "$(ls -A $LINE 2>/dev/null)" ] && break 1 || rm -rf $LINE
done
fi
done < $INFO
rm -f $INFO
fi

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{
"version": "v2023.12.02",
"versionCode": 20231202,
"zipUrl": "",
"changelog": ""
}

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