android_device_motorola_guamp/rootdir/bin/init.mmi.boot.sh
GarfieldFernando eddf6fbda6 guamp: Initial device tree
- Initial device tree for guamp device
- Based in Qualcomm SM6115

Signed-off-by: GarfieldFernando <ferchito.zoma@gmail.com>
2021-01-18 15:03:21 -06:00

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#!/vendor/bin/sh
PATH=/sbin:/vendor/sbin:/vendor/bin:/vendor/xbin
export PATH
scriptname=${0##*/}
notice()
{
echo "$*"
echo "$scriptname: $*" > /dev/kmsg
}
# We take this from cpuinfo because hex "letters" are lowercase there
set -A cinfo `cat /proc/cpuinfo | sed -n "/Revision/p"`
hw=${cinfo[2]#?}
# Now "cook" the value so it can be matched against devtree names
m2=${hw%?}
minor2=${hw#$m2}
m1=${m2%?}
minor1=${m2#$m1}
if [ "$minor2" == "0" ]; then
minor2=""
if [ "$minor1" == "0" ]; then
minor1=""
fi
fi
setprop ro.vendor.hw.revision p${hw%??}$minor1$minor2
unset hw cinfo m1 m2 minor1 minor2
# reload UTAGS
utag_status=$(cat /proc/config/reload)
if [ "$utag_status" == "2" ]; then
notice "Utags are not ready, reloading"
echo 1 > /proc/config/reload
utag_status=$(cat /proc/config/reload)
[ "$utag_status" != "0" ] && notice "Utags failed to reload"
fi
# Export these for factory validation purposes
iccid=$(cat /proc/config/iccid/ascii 2>/dev/null)
if [ ! -z "$iccid" ]; then
setprop ro.vendor.mot.iccid $iccid
fi
unset iccid
cust_md5=$(cat /proc/config/cust_md5/ascii 2>/dev/null)
if [ ! -z "$cust_md5" ]; then
setprop ro.vendor.mot.cust_md5 $cust_md5
fi
unset cust_md5
# Get FTI data and catch old units with incorrect/missing UTAG_FTI
pds_fti=/mnt/vendor/persist/factory/fti
if [ -r $pds_fti ]; then
set -A fti $(od -A n -t x1 $pds_fti 2>/dev/null | tr '[A-F]' '[a-f]')
else
notice "Can not read FTI data in persist"
fi
# If UTAG_FTI is readable, compare checksums
# and if they mismatch, assume PDS is valid and overwrite UTAG
utag_fti=/proc/config/fti
if [ -r $utag_fti/ascii ]; then
set -A fti_utag $(cat ${utag_fti}/raw | sed 's/../& /g' | tr '[A-F]' '[a-f]')
# Byte 128 is total cksum, if nothing there, PDS data is invalid/missing
if [ ! -z "${fti[127]}" ]; then
# Make sure fti in UTAG is the same as in persist. Checksum comparison
if [ "${fti[126]}" != "${fti_utag[126]}" -o "${fti[127]}" != "${fti_utag[127]}" ]; then
notice "Copying FTI data from persist"
cat $pds_fti > ${utag_fti}/raw
fi
else
# If PDS data is invalid, take UTAG and hope it is correct
notice "Will use FTI from UTAG"
set -A fti $(od -A n -t x1 ${utag_fti}/ascii 2>/dev/null)
fi
else
notice "Missing FTI UTAG; copying from persist"
echo fti > /proc/config/all/new
cat $pds_fti > ${utag_fti}/raw
fi
# Read HW version from FTI data
hw_v1="\x${fti[35]}"
hw_v2="\x${fti[36]}"
hw_v3="\x${fti[37]}"
if [ "$hw_v3" == "\x30" ]; then
hw_v3=""
fi
hw_v4="\x${fti[38]}"
if [ "$hw_v4" == "\x30" ]; then
hw_v4=""
fi
setprop ro.vendor.hw.boardversion $(printf "$hw_v1$hw_v2$hw_v3$hw_v4")
# Now we have set fti var either from PDS or UTAG
# Get Last Test Station stamp from FTI
# and convert to user-friendly date, US format
# Real offsets for year/month/day are 63/64/65
# If the month/date look reasonable, data is probably OK.
mdate="Unknown"
y=0x${fti[63]}
m=0x${fti[64]}
d=0x${fti[65]}
let year=$y month=$m day=$d
# Invalid data will often have bogus month/date values
if [ $month -le 12 -a $day -le 31 -a $year -ge 12 ]; then
mdate=$month/$day/20$year
else
notice "Corrupt FTI data"
fi
setprop ro.vendor.manufacturedate $mdate
unset fti y m d year month day utag_fti pds_fti fti_utag mdate
t=$(getprop ro.build.tags)
if [[ "$t" != *release* ]]; then
for p in $(cat /proc/cmdline); do
if [ ${p%%:*} = "@" ]; then
v=${p#@:}; a=${v%=*}; b=${v#*=}
${a%%:*} ${a##*:} $b
fi
done
fi
unset p v a b t
# Cleanup stale/incorrect programmed model value
# Real values will never contain substrings matching "internal" device name
product=$(getprop ro.vendor.hw.device)
model=$(cat /proc/config/model/ascii 2>/dev/null)
if [ $? -eq 0 ]; then
if [ "${model#*_}" == "$product" -o "${model%_*}" == "$product" ]; then
notice "Clearing stale model value"
echo "" > /proc/config/model/raw
fi
fi
unset model product
# set ro.vendor.bootreason, which be used to indicate kpanic/wdt boot status.
# When ro.boot.last_powerup_reason is set, it denotes this is a 2nd reboot
# after kpanic/wdt, we set ro.bootreason as coldboot to copy logs.
# Otherwise, we would set ro.bootreason the same as ro.boot.bootreason.
# ro.boot.bootreason is restricted as of android p, so get it another way:
bootreason_kvp=$(cat /proc/bootinfo | grep "Last boot reason")
last_power_up=$(getprop ro.boot.last_powerup_reason)
if [ ! -z "$last_power_up" ]
then
setprop ro.vendor.bootreason "coldboot"
else
setprop ro.vendor.bootreason ${bootreason_kvp##* }
fi