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Code Issues Releases Wiki Activity

Fix RUTX support

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This commit is contained in:
Ycarus (Yannick Chabanois) 2022-03-07 20:21:35 +01:00
parent 6fc4d11e09
commit 0b14e36374
98 changed files with 11611 additions and 893 deletions
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80
root/target/linux/ipq40xx/base-files/bin/backup Executable file
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#!/bin/sh
main() {
if [ $1 == "check_backup" ]; then
check_backup
elif [ $1 == "apply_backup" ]; then
apply_backup
fi
}
reverse_string() {
local input="$1"
local reverse=""
local len=${#input}
local i=$(($len-1))
while [ $i -ge 0 ]; do
reverse="$reverse${input:$i:1}"
i=$((i-1))
done
echo "$reverse"
}
check_backup() {
local size
local write_new_config_ok='1'
local this_device_code=$(uci -q get system.system.device_code)
local this_device_code_len=${#this_device_code}
local device_code_in_the_new_config=$(cat /tmp/new_config_dir/etc/config/system | grep device_code | cut -d ' ' -f3)
device_code_in_the_new_config=${device_code_in_the_new_config:1}
device_code_in_the_new_config=${device_code_in_the_new_config%?}
local device_code_in_new_config_len=${#device_code_in_the_new_config}
local this_device_name=${this_device_code:0:4}
[ "$this_device_name" = "RUT2" ] && size=8 || size=7
this_device_code=${this_device_code:0:$size}
device_code_in_the_new_config=${device_code_in_the_new_config:0:$size}
local this_device_fw_version=$(cat /etc/version)
local fw_version_in_new_config=$(cat /tmp/new_config_dir/etc/config/system | grep device_fw_version | cut -d ' ' -f3)
fw_version_in_new_config=${fw_version_in_new_config:1}
fw_version_in_new_config=${fw_version_in_new_config%?}
local fw_version_in_new_config_len=${#fw_version_in_new_config}
this_device_fw_version=$(reverse_string $this_device_fw_version)
this_device_fw_version=$(echo $this_device_fw_version | awk -F _ '{print $1}')
this_device_fw_version=$(reverse_string $this_device_fw_version)
fw_version_in_new_config=$(reverse_string $fw_version_in_new_config)
fw_version_in_new_config=$(echo $fw_version_in_new_config | awk -F _ '{print $1}')
fw_version_in_new_config=$(reverse_string $fw_version_in_new_config)
if [ $this_device_code_len -ne 12 ] || [ $device_code_in_new_config_len -ne 12 ] || [ "$this_device_code" != "$device_code_in_the_new_config" ]; then
write_new_config_ok='0'
fi
if [ $fw_version_in_new_config_len -lt 12 ] || [ $(expr ${this_device_fw_version} \< ${fw_version_in_new_config}) -eq 1 ]; then
write_new_config_ok='0'
fi
echo "$write_new_config_ok"
}
apply_backup() {
/etc/init.d/simcard reload >/dev/null 2>/dev/null
rm /tmp/new_config_dir/etc/config/hwinfo /tmp/new_config_dir/etc/inittab 2>/dev/null
sed -i "s/\/home\/root/\/root/" /tmp/new_config_dir/etc/passwd
sed -i "s/\/bin\/sh/\/bin\/ash/" /tmp/new_config_dir/etc/passwd
cp -rf /tmp/new_config_dir/etc/ / 2>/dev/null
cp -r /rom/etc/uci-defaults/* /etc/uci-defaults/ 2>/dev/null
}
main $1
exit 0

14
root/target/linux/ipq40xx/base-files/bin/board_detect Executable file
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#!/bin/sh
CFG=$1
[ -n "$CFG" ] || CFG=/etc/board.json
[ -d "/etc/board.d/" -a ! -s "$CFG" ] && {
for a in $(ls /etc/board.d/*); do
[ -x $a ] || continue;
$(. $a)
done
}
[ -s "$CFG" ] || return 1

307
root/target/linux/ipq40xx/base-files/bin/board_modem Executable file
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#!/bin/sh
#
# Copyright (c) 2015 The Linux Foundation. All rights reserved.
# Copyright (c) 2011-2015 OpenWrt.org
#
. /lib/functions/uci-defaults.sh
. /lib/functions/system.sh
CFG=/etc/board.json
# do not run on preinit/early init
[ "$EARLY_INIT" ] && return
strstr() {
[ "${1#*$2*}" = "$1" ] && return 1
return 0
}
print_array() {
json_add_array $1
case "$1" in
4G)
for element in $2
do
json_add_string "" "$(echo $element)"
done
;;
3G)
for element in $2
do
json_add_string "" "wcdma_$(echo $element)"
done
;;
2G)
for element in $2
do
json_add_string "" "$(echo $element)"
done
;;
esac
json_close_array
}
gather_band_capabilities() {
# Same logic as unhandler.c
###################### EG06 #########################
if strstr $revision_from_unhandler "EG06E"; then #EG06E
lte_bands="1 3 5 7 8 20 28 32 38 40 41" #B
trysg_bands="850 900 1800 2100" #MHz
dug_bands=""
elif strstr $revision_from_unhandler "EG06A"; then #EG06A
lte_bands="2 4 5 7 12 13 25 26 29 30 66"
trysg_bands="850 1700 1900"
dug_bands=""
###################### EC25 #########################
elif strstr $revision_from_unhandler "EC25EF"; then #EC25E
lte_bands="1 3 5 7 8 20 38 40 41"
trysg_bands="850 900 2100"
dug_bands="900 1800" #MHz
elif strstr $revision_from_unhandler "EC25EC"; then #EC25EC
lte_bands="1 3 7 8 20 28"
trysg_bands="900 2100"
dug_bands="900 1800"
elif strstr $revision_from_unhandler "EC25AUX"; then #EC25AUX
lte_bands="1 2 3 4 5 7 8 28 40"
trysg_bands="850 900 1700 1900 2100"
dug_bands="850 900 1800 1900"
elif strstr $revision_from_unhandler "EC25AFA"; then #EC25A
lte_bands="2 4 12"
trysg_bands="850 1700 1900"
dug_bands=""
elif strstr $revision_from_unhandler "EC25V"; then #EC25V
lte_bands="4 13"
trysg_bands=""
dug_bands=""
elif strstr $revision_from_unhandler "EC25AFX"; then #EC25AFX
lte_bands="2 4 5 12 13 14 66 71"
trysg_bands="850 1700 1900"
dug_bands=""
elif strstr $revision_from_unhandler "EC25AFF"; then #EC25AF
lte_bands="2 4 5 12 13 14 66 71"
trysg_bands="850 1700 1900"
dug_bands=""
elif strstr $revision_from_unhandler "EC25AUTF"; then #EC25AUT
lte_bands="1 3 5 7 28"
trysg_bands="850 2100"
dug_bands=""
elif strstr $revision_from_unhandler "EC25AUTL"; then #EC25AUTL
lte_bands="3 7 28"
trysg_bands=""
dug_bands=""
elif strstr $revision_from_unhandler "EC25AUF"; then #EC25AU
lte_bands="1 2 3 4 5 7 8 28 40"
trysg_bands="850 900 1900 2100"
dug_bands="850 900 1800 1900"
elif strstr $revision_from_unhandler "EC25J"; then #EC25J
lte_bands="1 3 8 18 19 26 41"
trysg_bands="800 900 2100"
dug_bands=""
elif strstr $revision_from_unhandler "EC25EUX"; then #EC25EUX
lte_bands="1 3 7 8 20 28 38 40 41"
trysg_bands="900 2100"
dug_bands="900 1800"
elif strstr $revision_from_unhandler "EC25EUF"; then #EC25EU
lte_bands="1 3 7 8 20 28 38 40 41"
trysg_bands="900 2100"
dug_bands="900 1800"
elif strstr $revision_from_unhandler "EC25EUG"; then #EC25EU
lte_bands="1 3 7 8 20 28 38 40 41"
trysg_bands="900 2100"
dug_bands="900 1800"
elif strstr $revision_from_unhandler "EC25MX"; then #EC25MX
lte_bands="2 4 5 7 28 66"
trysg_bands="850 1700 1900"
dug_bands=""
###################### EC21 #########################
elif strstr $revision_from_unhandler "EC21EUX"; then #EC21EUX
lte_bands="1 3 7 8 20 28"
trysg_bands="900 2100"
dug_bands="900 1800"
elif strstr $revision_from_unhandler "EC21EU"; then #EC21EU
lte_bands="1 3 7 8 20 28"
trysg_bands="900 2100"
dug_bands="900 1800"
elif strstr $revision_from_unhandler "EC21EC"; then #EC21EC
lte_bands="1 3 7 8 20 28"
trysg_bands="900 2100"
dug_bands="900 1800"
elif strstr $revision_from_unhandler "EC21E"; then #EC21E
lte_bands="1 3 5 7 8 20"
trysg_bands="850 900 2100"
dug_bands="900 1800"
elif strstr $revision_from_unhandler "EC21V"; then #EC21V
lte_bands="4 13"
trysg_bands=""
dug_bands=""
elif strstr $revision_from_unhandler "EC21KL"; then #EC21KL
lte_bands="1 3 5 7 8"
trysg_bands=""
dug_bands=""
elif strstr $revision_from_unhandler "EC21J"; then #EC21J
lte_bands="1 3 8 18 19 26"
trysg_bands=""
dug_bands=""
elif strstr $revision_from_unhandler "EC21AUX"; then #EC21AUX
lte_bands="1 2 3 4 5 7 8 28 40"
trysg_bands="850 900 1700 1900 2100"
dug_bands="850 900 1800 1900"
elif strstr $revision_from_unhandler "EC21AUT"; then #EC21AUT
lte_bands="1 3 5 7 28"
trysg_bands="850 2100"
dug_bands=""
elif strstr $revision_from_unhandler "EC21AU"; then #EC21AU
lte_bands="1 2 3 4 5 7 8 28 40"
trysg_bands="850 900 1900 2100"
dug_bands="850 900 1800 1900"
elif strstr $revision_from_unhandler "EC21A"; then #EC21A
lte_bands="2 4 12"
trysg_bands="850 1700 1900"
dug_bands=""
###################### EG25 #########################
elif strstr $revision_from_unhandler "EG25G"; then #EG25G
lte_bands="1 2 3 4 5 7 8 12 13 18 19 20 25 26 28 38 39 40 41"
trysg_bands="800 850 900 1700 1900 2100"
dug_bands="850 900 1800 1900"
elif strstr $revision_from_unhandler "EG12EA"; then #EG12EA
lte_bands="1 3 5 7 8 20 28 38 40 41"
trysg_bands="850 900 1800 2100"
dug_bands=""
elif strstr $revision_from_unhandler "EG12NA"; then #EG12NA
lte_bands="2 4 5 7 12 13 14 17 25 26 29 30 41 66 71"
trysg_bands="850 1700 1900"
dug_bands=""
elif strstr $revision_from_unhandler "BG96"; then #BG96M
lte_bands="1 2 3 4 5 8 12 13 18 19 20 26 28 39"
trysg_bands=""
dug_bands="850 900 1800 1900"
##################### SLM750 ########################
elif strstr $revision_from_unhandler "750VE"; then #SLM750VE
lte_bands="1 3 5 7 8 20 40"
trysg_bands="850 900 2100"
dug_bands="900 1800"
elif strstr $revision_from_unhandler "750VAU"; then #SLM750VAU
lte_bands="1 3 5 7 8 28 40"
trysg_bands="850 900 2100"
dug_bands="850 900 1800"
elif strstr $revision_from_unhandler "750VA"; then #SLM750VA
lte_bands="2 4 5 12 13 17 18 25 26 41"
trysg_bands="850 1700 1900"
dug_bands="850 1900"
elif strstr $revision_from_unhandler "750VJ"; then #SLM750VJ
lte_bands="1 3 8 18 19 26 41"
trysg_bands="800 900 2100"
dug_bands=""
elif strstr $revision_from_unhandler "750VSA"; then #SLM750VSA
lte_bands="2 4 5 7 8 28 40"
trysg_bands="850 900 1900"
dug_bands="850 900 1900"
###################### UC20 #########################
elif strstr $revision_from_unhandler "UC20E"; then #UC20E
lte_bands=""
trysg_bands="900 2100"
dug_bands="850 900 1800 1900"
elif strstr $revision_from_unhandler "UC20G"; then #UC20G
lte_bands=""
trysg_bands="800 850 900 1900 2100"
dug_bands="850 900 1800 1900"
elif strstr $revision_from_unhandler "UC20A"; then #UC20A
lte_bands=""
trysg_bands="850 1900"
dug_bands=""
else
lte_bands="1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28"
trysg_bands="700 800 850 900 1500 1700 2600"
dug_bands="1700 1800 1900 2100"
fi
}
validate_service_modes() {
json_get_keys service_modes service_modes
found_modes="$(printf "$service_modes" | awk '!seen[$0]++'| wc -l)"
[ "$found_modes" -eq 0 ] && {
return 0
}
return 1
}
#~ Get model name for RUTX products
setup_modem() {
local key="$1"
local object_num="$2"
local id gps boudrate type desc control product vendor stop_bits
json_select "$object_num"
json_get_vars id product
if [ "$id" = "$id_from_unhandler" ]; then
[ -z "$product" ] || \
{
[ -f "/sys/bus/usb/devices/$id/idVendor" ] && [ -f "/sys/bus/usb/devices/$id/idProduct" ] || {
json_select ..
return 1
}
validate_service_modes && {
gather_band_capabilities
json_select_object service_modes
[ -z "$lte_bands" ] || print_array "4G" "$lte_bands"
[ -z "$trysg_bands" ] || print_array "3G" "$trysg_bands"
[ -z "$dug_bands" ] || print_array "2G" "$dug_bands"
json_select ..
}
json_select ..
return 1
}
vendor="$(cat "/sys/bus/usb/devices/$id/idVendor")"
product="$(cat "/sys/bus/usb/devices/$id/idProduct")"
[ -f "/lib/network/wwan/$vendor:$product" ] && {
devicename="$id"
gather_band_capabilities
json_set_namespace defaults old_cb
json_load "$(cat /lib/network/wwan/$vendor:$product)"
json_get_vars gps boudrate type desc control stop_bits
json_set_namespace "$old_cb"
[ "${devicename%%:*}" = "$devicename" ] && {
json_add_string vendor "$vendor"
json_add_string product "$product"
json_add_string gps "$gps"
json_add_string stop_bits "$stop_bits"
json_add_string boudrate "$boudrate"
json_add_string type "$type"
json_add_string desc "$desc"
json_add_string control "$control"
json_add_object service_modes
[ -z "$lte_bands" ] || print_array "4G" "$lte_bands"
[ -z "$trysg_bands" ] || print_array "3G" "$trysg_bands"
[ -z "$dug_bands" ] || print_array "2G" "$dug_bands"
json_close_object
}
}
fi
json_select ..
}
[ -s "${CFG}" ] || exit 1
id_from_unhandler="$1"
revision_from_unhandler="$2"
lock /var/run/board_modem.lock
board_config_update
json_for_each_item setup_modem modems
board_config_flush
lock -u /var/run/board_modem.lock
exit 0

36
root/target/linux/ipq40xx/base-files/bin/board_track Executable file
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#!/bin/sh
. /lib/functions/uci-defaults.sh
CFG=/etc/board.json
SLP=30
check_modem() {
json_select "$2"
json_get_vars id
[ -z "$id" ] && {
json_select ..
return 0
}
ttys=$(ls -d /sys/bus/usb/devices/$id/${id}*/tty?*)
[ -n "$ttys" ] || { #FAILED TO FIND MODEM
mctl -s
sleep 1
mctl -p
json_select ..
return 1
}
#MODEM UP
json_select ..
}
board_config_update
while true; do
json_for_each_item check_modem modems
sleep $SLP
[ $SLP -lt 300 ] && SLP=$((SLP+30))
done

665
root/target/linux/ipq40xx/base-files/bin/config_generate Executable file
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#!/bin/sh
CFG=/etc/board.json
. /usr/share/libubox/jshn.sh
[ -s $CFG ] || /bin/board_detect || exit 1
[ -s /etc/config/network ] && \
[ -s /etc/config/system ] && \
[ -s /etc/config/hwinfo ] && \
[ -s /etc/config/blesem ] && \
exit 0
generate_static_network() {
uci -q batch <<-EOF
delete network.loopback
set network.loopback='interface'
set network.loopback.ifname='lo'
set network.loopback.proto='static'
set network.loopback.ipaddr='127.0.0.1'
set network.loopback.netmask='255.0.0.0'
EOF
[ -e /proc/sys/net/ipv6 ] && {
uci -q batch <<-EOF
delete network.globals
set network.globals='globals'
set network.globals.ula_prefix='auto'
EOF
}
if json_is_a dsl object; then
json_select dsl
if json_is_a atmbridge object; then
json_select atmbridge
local vpi vci encaps payload nameprefix
json_get_vars vpi vci encaps payload nameprefix
uci -q batch <<-EOF
delete network.atm
set network.atm='atm-bridge'
set network.atm.vpi='$vpi'
set network.atm.vci='$vci'
set network.atm.encaps='$encaps'
set network.atm.payload='$payload'
set network.atm.nameprefix='$nameprefix'
EOF
json_select ..
fi
if json_is_a modem object; then
json_select modem
local type annex firmware tone xfer_mode
json_get_vars type annex firmware tone xfer_mode
uci -q batch <<-EOF
delete network.dsl
set network.dsl='dsl'
set network.dsl.annex='$annex'
set network.dsl.firmware='$firmware'
set network.dsl.tone='$tone'
set network.dsl.xfer_mode='$xfer_mode'
EOF
json_select ..
fi
json_select ..
fi
}
addr_offset=2
generate_network() {
local keys var val ifname macaddr proto type ipaddr netmask
uci -q batch <<-EOF
delete "network.$1"
set network.$1='interface'
EOF
json_select network
json_select "$1"
json_get_keys keys
for var in $keys; do
json_get_var val "$var"
[ "${var#_*}" = "$var" ] && {
eval "$var=\"\$val\""
uci -q set "network.$1.$var=$val"
}
done
json_select ..
json_select ..
#~ [ -n "$ifname" ] || return
# force bridge for multi-interface devices (and lan)
case "$1:$ifname" in
*\ * | lan:*)
type="bridge"
uci -q set "network.$1.type=$type"
;;
esac
if [ -n "$macaddr" ]; then
for name in $ifname; do
uci -q batch <<-EOF
delete network.$1_${name/./_}_dev
set network.$1_${name/./_}_dev='device'
set network.$1_${name/./_}_dev.name='$name'
set network.$1_${name/./_}_dev.macaddr='$macaddr'
EOF
done
fi
case "$proto" in
static)
local ipad
case "$1" in
lan)
ipad=${ipaddr:-"192.168.1.1"}
;;
*) ipad=${ipaddr:-"192.168.$((addr_offset++)).1"} ;;
esac
netm=${netmask:-"255.255.255.0"}
uci -q batch <<-EOF
set network.$1.proto='static'
set network.$1.ipaddr='$ipad'
set network.$1.netmask='$netm'
EOF
[ -e /proc/sys/net/ipv6 ] && uci set network.$1.ip6assign='60'
;;
dhcp)
# fixup IPv6 slave interface if parent is a bridge
[ "$type" = "bridge" ] && ifname="br-$1"
uci set network.$1.proto='dhcp'
uci set network.$1.metric='1'
[ -e /proc/sys/net/ipv6 ] && {
uci -q batch <<-EOF
delete network.${1}6
set network.${1}6='interface'
set network.${1}6.ifname='$ifname'
set network.${1}6.proto='dhcpv6'
set network.${1}6.metric='1'
EOF
}
;;
pppoe)
uci -q batch <<-EOF
set network.$1.proto='pppoe'
set network.$1.username='username'
set network.$1.password='password'
EOF
[ -e /proc/sys/net/ipv6 ] && {
uci -q batch <<-EOF
set network.$1.ipv6='1'
delete network.${1}6
set network.${1}6='interface'
set network.${1}6.ifname='@${1}'
set network.${1}6.proto='dhcpv6'
EOF
}
;;
esac
}
add_modem_section() {
local id="$1"
local num="$2"
local simcount="$3"
local builtin="$4"
for count in $(seq "$simcount"); do
interface="mob${num}s${count}a1"
local proto="wwan"
# just like this for now
# probably we should merge connm with wwan
[ -e /dev/smd9 ] && {
proto="connm"
}
uci -q batch <<-EOF
delete network.$interface
set network.$interface='interface'
set network.$interface.proto='$proto'
set network.$interface.modem='$id'
set network.$interface.metric='$((num+1))'
set network.$interface.sim='${count}'
set network.$interface.pdp='1'
EOF
# just like this for now
# probably we should merge connm with wwan
[ -e /dev/smd9 ] && {
uci set network.$interface.ifname='rmnet0'
}
update_firewall_zone "wan" "$interface"
create_multiwan_iface "$interface" "$num"
add_simcard_config "$id" "${count}" "${count}" "$builtin"
add_sim_switch_config "$id" "${count}"
add_quota_limit_config "$interface"
done
add_sms_storage_config "$id"
}
generate_dynamic_lte() {
[ -f /lib/functions/modem.sh ] || return
. /lib/functions/modem.sh
local interface num id simcount builtin
#creating simcard sections from board.json file
if json_is_a modems array; then
json_get_keys modems modems
json_select modems
num=1
for modem in $modems; do
json_select "$modem"
json_get_vars id simcount builtin
json_select ..
add_modem_section "$id" "$num" "$simcount" "$builtin"
num=$(( num + 1 ))
done
json_select ..
else
## because of RUTX8 have no default modem
# after this script runs out simcard config
# must not be empty due to external modems could appear to config
echo " " >> /etc/config/simcard
fi
#creating simcard sections from conneted via USB
for a in `ls /sys/bus/usb/devices`; do
local vendor product
[ -f "/sys/bus/usb/devices/$a/idVendor" ] && [ -f "/sys/bus/usb/devices/$a/idProduct" ] || continue
vendor=$(cat "/sys/bus/usb/devices/$a/idVendor")
product=$(cat "/sys/bus/usb/devices/$a/idProduct")
[ -f "/lib/network/wwan/${vendor}:${product}" ] && {
add_simcard_config "$a" "1" "0" ""
}
done
}
generate_switch_vlans_ports() {
local switch="$1"
local port ports role roles num attr val
#
# autogenerate vlans
#
if json_is_a roles array; then
json_get_keys roles roles
json_select roles
for role in $roles; do
json_select "$role"
json_get_vars ports
json_select ..
uci -q batch <<-EOF
add network switch_vlan
set network.@switch_vlan[-1].device='$switch'
set network.@switch_vlan[-1].vlan='$role'
set network.@switch_vlan[-1].ports='$ports'
EOF
done
json_select ..
fi
#
# write port specific settings
#
if json_is_a ports array; then
json_get_keys ports ports
json_select ports
for port in $ports; do
json_select "$port"
json_get_vars num
if json_is_a attr object; then
json_get_keys attr attr
json_select attr
uci -q batch <<-EOF
add network switch_port
set network.@switch_port[-1].device='$switch'
set network.@switch_port[-1].port=$num
EOF
for attr in $attr; do
json_get_var val "$attr"
uci -q set network.@switch_port[-1].$attr="$val"
done
json_select ..
fi
json_select ..
done
json_select ..
fi
}
generate_switch() {
local key="$1"
local vlans
json_select switch
json_select "$key"
json_get_vars enable reset blinkrate cpu_port \
ar8xxx_mib_type ar8xxx_mib_poll_interval
uci -q batch <<-EOF
add network switch
set network.@switch[-1].name='$key'
set network.@switch[-1].reset='$reset'
set network.@switch[-1].enable_vlan='$enable'
set network.@switch[-1].blinkrate='$blinkrate'
set network.@switch[-1].ar8xxx_mib_type='$ar8xxx_mib_type'
set network.@switch[-1].ar8xxx_mib_poll_interval='$ar8xxx_mib_poll_interval'
EOF
generate_switch_vlans_ports "$1"
json_select ..
json_select ..
}
generate_static_system() {
param=$(/sbin/mnf_info "--name")
hostname=${param:0:6}
uci -q batch <<-EOF
delete system.@system[0]
set system.system='system'
set system.@system[-1].hostname='Teltonika-$hostname.com'
set system.@system[-1].timezone='UTC'
set system.@system[-1].ttylogin='0'
set system.@system[-1].log_size='128'
set system.@system[-1].urandom_seed='0'
delete system.ntp
set system.ntp='timeserver'
set system.ntp.enabled='0'
set system.ntp.enable_server='0'
add_list system.ntp.server='0.pool.ntp.org'
add_list system.ntp.server='1.pool.ntp.org'
add_list system.ntp.server='2.pool.ntp.org'
add_list system.ntp.server='3.pool.ntp.org'
delete system.debug
set system.debug='debug'
set system.debug.sms_utils_debug_level='4'
EOF
if json_is_a system object; then
json_select system
local hostname
if json_get_var hostname hostname; then
uci -q set "system.@system[-1].hostname=$hostname"
fi
if json_is_a ntpserver array; then
local keys key
json_get_keys keys ntpserver
json_select ntpserver
uci -q delete "system.ntp.server"
for key in $keys; do
local server
if json_get_var server "$key"; then
uci -q add_list "system.ntp.server=$server"
fi
done
json_select ..
fi
json_select ..
fi
}
generate_rssimon() {
local key="$1"
local cfg="rssid_$key"
local refresh threshold
json_select rssimon
json_select "$key"
json_get_vars refresh threshold
json_select ..
json_select ..
uci -q batch <<-EOF
delete system.$cfg
set system.$cfg='rssid'
set system.$cfg.dev='$key'
set system.$cfg.refresh='$refresh'
set system.$cfg.threshold='$threshold'
EOF
}
generate_led() {
local key="$1"
local cfg="led_$key"
json_select led
json_select "$key"
json_get_vars name sysfs type trigger default
uci -q batch <<-EOF
delete system.$cfg
set system.$cfg='led'
set system.$cfg.name='$name'
set system.$cfg.sysfs='$sysfs'
set system.$cfg.trigger='$trigger'
set system.$cfg.default='$default'
EOF
case "$type" in
gpio)
local gpio inverted
json_get_vars gpio inverted
uci -q batch <<-EOF
set system.$cfg.trigger='gpio'
set system.$cfg.gpio='$gpio'
set system.$cfg.inverted='$inverted'
EOF
;;
netdev)
local device mode
json_get_vars device mode
uci -q batch <<-EOF
set system.$cfg.trigger='netdev'
set system.$cfg.mode='$mode'
set system.$cfg.dev='$device'
EOF
;;
usb)
local device
json_get_vars device
uci -q batch <<-EOF
set system.$cfg.trigger='usbdev'
set system.$cfg.interval='50'
set system.$cfg.dev='$device'
EOF
;;
usbport)
local ports port
json_get_values ports ports
uci set system.$cfg.trigger='usbport'
for port in $ports; do
uci add_list system.$cfg.port=$port
done
;;
rssi)
local iface minq maxq offset factor
json_get_vars iface minq maxq offset factor
uci -q batch <<-EOF
set system.$cfg.trigger='rssi'
set system.$cfg.iface='rssid_$iface'
set system.$cfg.minq='$minq'
set system.$cfg.maxq='$maxq'
set system.$cfg.offset='$offset'
set system.$cfg.factor='$factor'
EOF
;;
switch)
local port_mask speed_mask mode
json_get_vars port_mask speed_mask mode
uci -q batch <<-EOF
set system.$cfg.port_mask='$port_mask'
set system.$cfg.speed_mask='$speed_mask'
set system.$cfg.mode='$mode'
EOF
;;
portstate)
local port_state
json_get_vars port_state
uci -q batch <<-EOF
set system.$cfg.port_state='$port_state'
EOF
;;
timer|oneshot)
local delayon delayoff
json_get_vars delayon delayoff
uci -q batch <<-EOF
set system.$cfg.trigger='$type'
set system.$cfg.delayon='$delayon'
set system.$cfg.delayoff='$delayoff'
EOF
;;
esac
json_select ..
json_select ..
}
generate_gpioswitch() {
local cfg="$1"
json_select gpioswitch
json_select "$cfg"
local name pin default
json_get_vars name pin default
uci -q batch <<-EOF
delete system.$cfg
set system.$cfg='gpio_switch'
set system.$cfg.name='$name'
set system.$cfg.gpio_pin='$pin'
set system.$cfg.value='$default'
EOF
json_select ..
json_select ..
}
generate_hwinfo() {
local parameter="$1"
local temp
json_select hwinfo
json_get_var temp "$parameter"
json_select ..
uci -q batch <<-EOF
set hwinfo.hwinfo='hwinfo'
set hwinfo.hwinfo.$parameter='$temp'
EOF
}
generate_bluetooth() {
uci -q batch <<-EOF
set blesem.general='section'
set blesem.general.enabled='0'
set blesem.settings='app'
set blesem.settings.refresh_time='30000'
EOF
}
add_firewall_zone() {
local ifname
json_select network
json_select "$1"
json_get_vars ifname
json_select ..
json_select ..
fw3 -q network "$1" || fw3 -q device "$ifname" && return
uci -q batch <<-EOF
add firewall zone
set firewall.@zone[-1].name='$1'
set firewall.@zone[-1].network='$1'
set firewall.@zone[-1].input='REJECT'
set firewall.@zone[-1].output='ACCEPT'
set firewall.@zone[-1].forward='REJECT'
add firewall forwarding
set firewall.@forwarding[-1].src='$1'
set firewall.@forwarding[-1].dest='wan'
add firewall rule
set firewall.@rule[-1].name='Allow-DNS-$1'
set firewall.@rule[-1].src='$1'
set firewall.@rule[-1].dest_port='53'
set firewall.@rule[-1].proto='tcp udp'
set firewall.@rule[-1].target='ACCEPT'
add firewall rule
set firewall.@rule[-1].name='Allow-DHCP-$1'
set firewall.@rule[-1].src='$1'
set firewall.@rule[-1].dest_port='67'
set firewall.@rule[-1].proto='udp'
set firewall.@rule[-1].family='ipv4'
set firewall.@rule[-1].target='ACCEPT'
EOF
}
add_dhcp() {
json_select network
json_select "$1"
json_get_vars _dhcp
json_select ..
json_select ..
[ "$_dhcp" = "1" ] || return
uci -q batch <<-EOF
set dhcp.$1='dhcp'
set dhcp.$1.interface='$1'
set dhcp.$1.start='100'
set dhcp.$1.limit='150'
set dhcp.$1.leasetime='1h'
EOF
}
json_init
json_load "$(cat ${CFG})"
umask 077
if [ ! -s /etc/config/network ]; then
touch /etc/config/network
generate_static_network
json_get_keys keys network
for key in $keys; do
generate_network $key
add_firewall_zone "$key"
add_dhcp "$key"
done
json_get_keys keys switch
for key in $keys; do generate_switch $key; done
generate_dynamic_lte
fi
if [ ! -s /etc/config/system ]; then
touch /etc/config/system
generate_static_system
json_get_keys keys rssimon
for key in $keys; do generate_rssimon $key; done
json_get_keys keys gpioswitch
for key in $keys; do generate_gpioswitch $key; done
json_get_keys keys led
for key in $keys; do generate_led $key; done
fi
if [ ! -s /etc/config/hwinfo ]; then
touch /etc/config/hwinfo
json_get_keys keys hwinfo
for key in $keys; do generate_hwinfo $key; done
fi
if [ ! -s /etc/config/blesem ]; then
bluetooth=""
json_select hwinfo
json_get_vars bluetooth
[ "$bluetooth" -eq 1 ] && {
touch /etc/config/blesem
touch /etc/config/ble_devices
generate_bluetooth
}
fi
uci commit

71
root/target/linux/ipq40xx/base-files/bin/ipcalc.sh Executable file
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#!/bin/sh
awk -f - $* <<EOF
function bitcount(c) {
c=and(rshift(c, 1),0x55555555)+and(c,0x55555555)
c=and(rshift(c, 2),0x33333333)+and(c,0x33333333)
c=and(rshift(c, 4),0x0f0f0f0f)+and(c,0x0f0f0f0f)
c=and(rshift(c, 8),0x00ff00ff)+and(c,0x00ff00ff)
c=and(rshift(c,16),0x0000ffff)+and(c,0x0000ffff)
return c
}
function ip2int(ip) {
for (ret=0,n=split(ip,a,"\."),x=1;x<=n;x++) ret=or(lshift(ret,8),a[x])
return ret
}
function int2ip(ip,ret,x) {
ret=and(ip,255)
ip=rshift(ip,8)
for(;x<3;ret=and(ip,255)"."ret,ip=rshift(ip,8),x++);
return ret
}
function compl32(v) {
ret=xor(v, 0xffffffff)
return ret
}
BEGIN {
slpos=index(ARGV[1],"/")
if (slpos == 0) {
ipaddr=ip2int(ARGV[1])
dotpos=index(ARGV[2],".")
if (dotpos == 0)
netmask=compl32(2**(32-int(ARGV[2]))-1)
else
netmask=ip2int(ARGV[2])
} else {
ipaddr=ip2int(substr(ARGV[1],0,slpos-1))
netmask=compl32(2**(32-int(substr(ARGV[1],slpos+1)))-1)
ARGV[4]=ARGV[3]
ARGV[3]=ARGV[2]
}
network=and(ipaddr,netmask)
broadcast=or(network,compl32(netmask))
start=or(network,and(ip2int(ARGV[3]),compl32(netmask)))
limit=network+1
if (start<limit) start=limit
end=start+ARGV[4]
limit=or(network,compl32(netmask))-1
if (end>limit) end=limit
print "IP="int2ip(ipaddr)
print "NETMASK="int2ip(netmask)
print "BROADCAST="int2ip(broadcast)
print "NETWORK="int2ip(network)
print "PREFIX="32-bitcount(compl32(netmask))
# range calculations:
# ipcalc <ip> <netmask> <start> <num>
if (ARGC > 3) {
print "START="int2ip(start)
print "END="int2ip(end)
}
}
EOF

17
root/target/linux/ipq40xx/base-files/bin/ipk-sig.sh Executable file
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#!/bin/sh
sig="/tmp/.$(cat /proc/sys/kernel/random/uuid).sig"
check() {
local ipk="$1"
[ -z "$ipk" ] && return 1
tar -xzOf "$ipk" ./control+data.sig > $sig || return 2
tar -xzOf "$ipk" ./control.tar.gz ./data.tar.gz | usign -V -m - -P /etc/opkg/keys -x $sig || return 3
}
check $1
status=$?
rm -f $sig
return $status

174
root/target/linux/ipq40xx/base-files/etc/board.d/02_network
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@ -1,174 +0,0 @@
#!/bin/sh
#
# Copyright (c) 2015 The Linux Foundation. All rights reserved.
# Copyright (c) 2011-2015 OpenWrt.org
#
. /lib/functions/uci-defaults.sh
. /lib/functions/system.sh
ipq40xx_setup_interfaces()
{
local board="$1"
case "$board" in
8dev,habanero-dvk|\
8dev,jalapeno|\
alfa-network,ap120c-ac|\
engenius,emr3500|\
engenius,ens620ext)
ucidef_set_interfaces_lan_wan "eth0" "eth1"
;;
aruba,ap-303|\
aruba,ap-365|\
avm,fritzrepeater-1200|\
dlink,dap-2610 |\
engenius,eap1300|\
engenius,emd1|\
meraki,mr33|\
netgear,ex6100v2|\
netgear,ex6150v2|\
zyxel,wre6606)
ucidef_set_interface_lan "eth0"
;;
aruba,ap-303h|\
teltonika,rutx)
ucidef_set_interfaces_lan_wan "eth0" "eth1"
ucidef_add_switch "switch0" \
"0u@eth0" "2:lan:1" "3:lan:2" "4:lan:3" "0u@eth1" "5:wan"
;;
asus,map-ac2200|\
cilab,meshpoint-one|\
openmesh,a42|\
openmesh,a62)
ucidef_set_interfaces_lan_wan "eth1" "eth0"
;;
asus,rt-ac58u|\
p2w,r619ac-128m|\
p2w,r619ac|\
zyxel,nbg6617)
ucidef_set_interfaces_lan_wan "eth0" "eth1"
ucidef_add_switch "switch0" \
"0u@eth0" "1:lan:4" "2:lan:3" "3:lan:2" "4:lan:1"
;;
avm,fritzbox-4040|\
linksys,ea6350v3|\
linksys,ea8300)
ucidef_set_interfaces_lan_wan "eth0" "eth1"
ucidef_add_switch "switch0" \
"0u@eth0" "1:lan" "2:lan" "3:lan" "4:lan"
;;
avm,fritzbox-7530)
ucidef_add_switch "switch0" \
"0u@eth0" "1:lan" "2:lan" "3:lan" "4:lan"
;;
avm,fritzrepeater-3000|\
compex,wpj419|\
compex,wpj428|\
engenius,eap2200)
ucidef_set_interface_lan "eth0 eth1"
;;
buffalo,wtr-m2133hp)
ucidef_set_interfaces_lan_wan "eth0" "eth1"
ucidef_add_switch "switch0" \
"0u@eth0" "2:lan:3" "3:lan:2" "4:lan:1"
;;
cellc,rtl30vw)
ucidef_set_interface_lan "eth0"
ucidef_add_switch "switch0" \
"0u@eth0" "3:lan" "4:lan"
;;
ezviz,cs-w3-wd1200g-eup)
ucidef_set_interfaces_lan_wan "eth0" "eth1"
ucidef_add_switch "switch0" \
"0u@eth0" "2:lan:3" "3:lan:2" "4:lan:1" "0u@eth1" "5:wan"
;;
glinet,gl-b1300 |\
glinet,gl-s1300)
ucidef_set_interfaces_lan_wan "eth0" "eth1"
ucidef_add_switch "switch0" \
"0u@eth0" "3:lan" "4:lan"
;;
mobipromo,cm520-79f)
ucidef_add_switch "switch0" \
"0u@eth0" "3:lan:2" "4:lan:1"
ucidef_set_interface_wan "eth1"
;;
qxwlan,e2600ac-c1 |\
qxwlan,e2600ac-c2)
ucidef_set_interfaces_lan_wan "eth0" "eth1"
ucidef_add_switch "switch0" \
"0u@eth0" "3:lan" "4:lan" "0u@eth1" "5:wan"
;;
unielec,u4019-32m)
ucidef_set_interfaces_lan_wan "eth0" "eth1"
ucidef_add_switch "switch0" \
"0u@eth0" "1:lan" "2:lan" "3:lan" "4:lan" "0u@eth1" "5:wan"
;;
*)
echo "Unsupported hardware. Network interfaces not initialized"
;;
esac
}
ipq40xx_setup_macs()
{
local board="$1"
local lan_mac=""
local wan_mac=""
local label_mac=""
case "$board" in
8dev,habanero-dvk)
label_mac=$(mtd_get_mac_binary "ART" 0x1006)
;;
asus,rt-ac58u|\
p2w,r619ac-128m|\
p2w,r619ac)
CI_UBIPART=UBI_DEV
wan_mac=$(mtd_get_mac_binary_ubi Factory 0x1006)
lan_mac=$(mtd_get_mac_binary_ubi Factory 0x5006)
label_mac=$wan_mac
;;
cilab,meshpoint-one)
label_mac=$(mtd_get_mac_binary "ART" 0x1006)
;;
dlink,dap-2610)
lan_mac=$(mtd_get_mac_ascii bdcfg lanmac)
label_mac=$lan_mac
;;
engenius,eap2200|\
engenius,emd1)
lan_mac=$(mtd_get_mac_ascii 0:APPSBLENV ethaddr)
label_mac=$lan_mac
;;
engenius,emr3500)
wan_mac=$(mtd_get_mac_ascii 0:APPSBLENV wanaddr)
lan_mac=$(mtd_get_mac_ascii 0:APPSBLENV ethaddr)
label_mac=$wan_mac
;;
engenius,ens620ext)
wan_mac=$(mtd_get_mac_ascii u-boot-env ethaddr)
lan_mac=$(macaddr_add "$wan_mac" 1)
;;
ezviz,cs-w3-wd1200g-eup)
label_mac=$(mtd_get_mac_binary "ART" 0x6)
;;
linksys,ea6350v3)
wan_mac=$(mtd_get_mac_ascii devinfo hw_mac_addr)
lan_mac=$(macaddr_add "$wan_mac" 1)
;;
esac
[ -n "$lan_mac" ] && ucidef_set_interface_macaddr "lan" $lan_mac
[ -n "$wan_mac" ] && ucidef_set_interface_macaddr "wan" $wan_mac
[ -n "$label_mac" ] && ucidef_set_label_macaddr $label_mac
}
board_config_update
board=$(board_name)
ipq40xx_setup_interfaces $board
ipq40xx_setup_macs $board
board_config_flush
exit 0

209
root/target/linux/ipq40xx/base-files/etc/board.d/1-board_json Executable file
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@ -0,0 +1,209 @@
#!/bin/sh
#
# Copyright (c) 2015 The Linux Foundation. All rights reserved.
# Copyright (c) 2011-2015 OpenWrt.org
#
. /lib/functions/uci-defaults.sh
. /lib/functions/teltonika-defaults.sh
. /lib/functions/system.sh
setup_json() {
local model="$1"
case "$model" in
RUTX08*)
ucidef_set_interfaces_lan_wan "eth0" "eth1"
ucidef_add_switch "switch0" \
"0u@eth0" "2:lan:1" "3:lan:2" "4:lan:3" "0u@eth1" "5:wan"
ucidef_set_hwinfo usb ethernet ios
;;
RUTX09*)
ucidef_set_interfaces_lan_wan "eth0" "eth1"
ucidef_add_switch "switch0" \
"0u@eth0" "2:lan:1" "3:lan:2" "4:lan:3" "0u@eth1" "5:wan"
ucidef_add_static_modem_info "$model" "3-1" "2" "gps_out"
ucidef_set_hwinfo dual_sim usb gps mobile ethernet ios
;;
RUTX10*)
ucidef_set_interfaces_lan_wan "eth0" "eth1"
ucidef_add_switch "switch0" \
"0u@eth0" "2:lan:1" "3:lan:2" "4:lan:3" "0u@eth1" "5:wan"
ucidef_set_hwinfo bluetooth usb wifi dual_band_ssid ethernet ios
;;
RUTX11*)
ucidef_set_interfaces_lan_wan "eth0" "eth1"
ucidef_add_switch "switch0" \
"0u@eth0" "2:lan:1" "3:lan:2" "4:lan:3" "0u@eth1" "5:wan"
ucidef_add_static_modem_info "$model" "3-1" "2" "gps_out"
ucidef_set_hwinfo dual_sim usb gps mobile wifi dual_band_ssid bluetooth ethernet ios
;;
RUTXR1*)
ucidef_set_interfaces_lan_wan "eth0" "eth1"
ucidef_add_switch "switch0" \
"0u@eth0" "1:lan" "2:lan" "3:lan" "4:lan" "0u@eth1" "5:wan"
ucidef_add_static_modem_info "$model" "3-1" "2"
ucidef_set_hwinfo dual_sim usb mobile wifi dual_band_ssid ethernet sfp_port
ucidef_set_release_version "2.3.1"
;;
RUTX12*)
ucidef_set_interfaces_lan_wan "eth0" "eth1"
ucidef_add_switch "switch0" \
"0u@eth0" "1:lan" "2:lan" "3:lan" "4:lan" "0u@eth1" "5:wan"
# builtin and primary should be first modem
ucidef_add_static_modem_info "$model" "3-1" "1" "primary" "gps_out"
ucidef_add_static_modem_info "$model" "1-1.2" "1"
ucidef_set_hwinfo usb gps mobile wifi dual_band_ssid bluetooth ethernet ios
ucidef_set_release_version "2.3.1"
;;
RUTX14*)
ucidef_set_interfaces_lan_wan "eth0" "eth1"
ucidef_add_switch "switch0" \
"0u@eth0" "1:lan" "2:lan" "3:lan" "4:lan" "0u@eth1" "5:wan"
ucidef_add_static_modem_info "$model" "1-1" "2" "gps_out"
ucidef_set_hwinfo usb gps dual_sim mobile wifi dual_band_ssid bluetooth ethernet ios at_sim
ucidef_set_release_version "2.6.1"
;;
RUTX18*)
ucidef_set_interfaces_lan_wan "eth0" "eth1"
ucidef_add_switch "switch0" \
"0u@eth0" "1:lan" "2:lan" "3:lan" "4:lan" "0u@eth1" "5:wan"
ucidef_add_static_modem_info "$model" "2-1" "2" "gps_out"
ucidef_set_hwinfo usb gps dual_sim mobile wifi dual_band_ssid bluetooth ethernet ios
;;
TRB2*)
ucidef_set_led_switch "lan" "LAN" "eth_led" "switch0" "0x04"
ucidef_set_interface_lan "eth0"
ucidef_add_static_modem_info "$model" "1-1.4" "2" "gps_out"
ucidef_add_serial_capabilities "rs232 rs485" \
"300 600 1200 2400 4800 9600 14400 19200 38400 56000 57600 115200 \
230400 460800 921600 1000000 3000000" \
"7 8"
ucidef_set_hwinfo dual_sim mobile gps ethernet ios
;;
RUT200* |\
RUT241*)
ucidef_set_led_switch "lan" "LAN" "eth1_led" "switch0" "0x2"
ucidef_set_led_switch "wan" "WAN" "eth2_led" "switch0" "0x1"
ucidef_add_switch "switch0" "1:lan" "0:wan" "6@eth0"
ucidef_set_interface_macaddr "lan" "$(mtd_get_mac_binary config 0x0)"
ucidef_set_interface_macaddr "wan" "$(macaddr_add "$(mtd_get_mac_binary config 0x0)" 1)"
ucidef_add_static_modem_info "$model" "1-1" "1"
[ "${model:7:1}" = "1" ] && ucidef_set_hwinfo mobile wifi \
ethernet || ucidef_set_hwinfo mobile wifi ethernet ios
;;
RUT2*)
ucidef_set_led_switch "lan" "LAN" "lan_led" "switch0" "0x04"
ucidef_set_led_netdev "wan" "WAN" "wan_led" "eth1"
ucidef_set_interfaces_lan_wan "eth0" "eth1"
ucidef_add_static_modem_info "$model" "1-1" "1"
[ "${model:6:1}" = "1" ] && ucidef_set_hwinfo mobile wifi \
ethernet || ucidef_set_hwinfo mobile wifi ethernet ios
;;
RUT300*)
ucidef_set_led_switch "lan1" "LAN1" "eth1_led" "switch0" "0x02"
ucidef_set_led_switch "lan2" "LAN2" "eth2_led" "switch0" "0x10"
ucidef_set_led_switch "lan3" "LAN3" "eth3_led" "switch0" "0x08"
ucidef_set_led_switch "lan4" "LAN4" "eth4_led" "switch0" "0x04"
ucidef_set_led_netdev "wan" "WAN" "wan_led" "eth1"
ucidef_set_interface_wan "eth1"
ucidef_add_switch "switch0" \
"0@eth0" "1:lan:1" "2:lan:4" "3:lan:3" "4:lan:2"
ucidef_set_hwinfo usb ethernet ios
;;
RUT360*)
ucidef_set_led_switch "lan" "LAN" "eth1_led" "switch0" "0x10"
ucidef_set_led_netdev "wan" "WAN" "eth2_led" "eth1"
ucidef_set_interfaces_lan_wan "eth0" "eth1"
ucidef_add_static_modem_info "$model" "1-1" "1"
ucidef_set_hwinfo mobile wifi dual_band_ssid ethernet ios
;;
RUT950*)
ucidef_set_led_switch "lan1" "LAN1" "eth1_led" "switch0" "0x10"
ucidef_set_led_switch "lan2" "LAN2" "eth2_led" "switch0" "0x08"
ucidef_set_led_switch "lan3" "LAN3" "eth3_led" "switch0" "0x04"
ucidef_set_led_netdev "wan" "WAN" "wan_led" "eth1"
ucidef_set_interface_wan "eth1"
ucidef_add_switch "switch0" "0@eth0" "2:lan:3" "3:lan:2" "4:lan:1"
ucidef_add_static_modem_info "$model" "1-1" "2"
[ "${model:7:2}" = "06" ] && ucidef_set_hwinfo dual_sim mobile \
wifi ethernet || ucidef_set_hwinfo dual_sim mobile wifi ethernet ios
;;
RUT955*)
ucidef_set_led_switch "lan1" "LAN1" "eth1_led" "switch0" "0x10"
ucidef_set_led_switch "lan2" "LAN2" "eth2_led" "switch0" "0x08"
ucidef_set_led_switch "lan3" "LAN3" "eth3_led" "switch0" "0x04"
ucidef_set_led_netdev "wan" "WAN" "wan_led" "eth1"
ucidef_set_interface_wan "eth1"
ucidef_add_switch "switch0" "0@eth0" "2:lan:3" "3:lan:2" "4:lan:1"
ucidef_add_static_modem_info "$model" "1-1.4" "2" "gps_out"
[ "${model:7:2}" = "06" ] && ucidef_set_hwinfo dual_sim usb gps \
mobile wifi ethernet || ucidef_set_hwinfo dual_sim usb gps \
mobile wifi ethernet ios
ucidef_add_serial_capabilities "rs232" \
"200 300 600 1200 1800 2400 4800 9600 19200 38400 57600 115200 \
230400 460800 500000 576000" \
"5 6 7 8"
ucidef_add_serial_capabilities "rs485" \
"300 600 1200 1800 2400 4800 9600 19200 38400 57600 115200 230400 \
460800 500000 576000 921600 1000000 1152000 1500000 2000000 \
2500000 3000000" \
"8"
;;
TRB140*)
ucidef_set_interface_lan "eth0 rndis0"
ucidef_add_trb14x_lte_modem "$model"
ucidef_add_nand_info "$model"
[ "${model:7:1}" = "2" ] && ucidef_set_hwinfo mobile ethernet || \
ucidef_set_hwinfo mobile ethernet ios
;;
TRB141*)
ucidef_set_interface_lan "rndis0"
ucidef_add_trb14x_lte_modem "$model"
ucidef_add_nand_info "$model"
ucidef_set_hwinfo mobile ios
;;
TRB142* |\
TRB145*)
ucidef_set_interface_lan "rndis0"
ucidef_add_trb14x_lte_modem "$model"
ucidef_add_nand_info "$model"
[ "${model:7:1}" = "2" ] && ucidef_set_hwinfo mobile || \
ucidef_set_hwinfo mobile ios
[ "${model:5:1}" = "2" ] && local rs="rs232"
ucidef_add_serial_capabilities "${rs:-rs485}" \
"300 600 1200 2400 4800 9600 19200 38400 57600 115200 460800" \
"5 6 7 8"
[ "${model:5:2}" = "23" -o "${model:5:2}" = "52" ] && \
ucidef_set_release_version "7.1"
;;
TCR100*)
ucidef_set_led_switch "lan" "LAN" "eth1_led" "switch0" "0x10"
ucidef_set_led_netdev "wan" "WAN" "eth2_led" "eth1"
ucidef_set_interfaces_lan_wan "eth0" "eth1"
ucidef_set_interface guest proto static type bridge \
guest 1 _wireless true _dhcp true
ucidef_add_static_modem_info "$model" "1-1" "1"
ucidef_set_hwinfo mobile wifi dual_band_ssid wps ethernet
;;
*)
echo "Unsupported hardware. Network interfaces not intialized"
;;
esac
}
#~ Get model name for RUTX products
if ! model="$(mnf_info --name)" 2>/dev/null; then
model="$(mnf_info --prod-code)" 2>/dev/null
fi
platform="$(cat /proc/device-tree/platform)" 2>/dev/null
board_config_update
setup_json "$model"
ucidef_set_board_platform "$platform"
board_config_flush
exit 0

2
root/target/linux/ipq40xx/base-files/etc/fstab Normal file
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@ -0,0 +1,2 @@
# <file system> <mount point> <type> <options> <dump> <pass>
/dev/mtdblock15 /log jffs2 defaults 0 0

273
root/target/linux/ipq40xx/base-files/etc/hotplug.d/firmware/11-ath10k-caldata
View file

@ -1,246 +1,67 @@
#!/bin/sh
ath10kcal_die() {
echo "ath10cal: " "$*"
exit 1
}
ath10kcal_extract() {
local part=$1
local offset=$2
local count=$3
local mtd
mtd=$(find_mtd_chardev $part)
[ -n "$mtd" ] || \
ath10kcal_die "no mtd device found for partition $part"
dd if=$mtd of=/lib/firmware/$FIRMWARE iflag=skip_bytes bs=$count skip=$offset count=1 2>/dev/null || \
ath10kcal_die "failed to extract calibration data from $mtd"
}
ensure_correct_art() {
# NOTE(rytis): Hardcoded hashes for 64 KiB file, filled with zeroes (md5b0) and ones (md5b1).
local md5b0="fcd6bcb56c1689fcef28b57c22475bad"
local md5b1="ecb99e6ffea7be1e5419350f725da86b"
local artdir="/dev/mtd12"
local bindir="/usr/share/art/art_rutx.bin"
local md5art="$(md5sum $artdir)"
md5art="${md5art%% *}"
local devicename="$(mnf_info -n)"
devicename="${devicename:0:6}"
if [ "$devicename" != "RUTX08" ] && [ "$devicename" != "RUTX09" ]; then
if [ "$md5art" == "$md5b0" ] || [ "$md5art" == "$md5b1" ] && [ -e "$bindir" ]; then
mtd write $bindir $artdir
fi
else
if [ "$md5art" != "$md5b0" ] && [ "$md5art" != "$md5b1" ]; then
mtd erase $artdir
fi
fi
}
[ -e /lib/firmware/$FIRMWARE ] && exit 0
. /lib/functions/caldata.sh
. /lib/functions.sh
. /lib/functions/system.sh
board=$(board_name)
ensure_correct_art
case "$FIRMWARE" in
"ath10k/cal-pci-0000:01:00.0.bin")
case "$board" in
meraki,mr33)
caldata_extract_ubi "ART" 0x9000 0x844
caldata_valid "4408" || caldata_extract "ART" 0x9000 0x844
ath10k_patch_mac $(macaddr_add $(get_mac_binary "/sys/bus/i2c/devices/0-0050/eeprom" 0x66) +1)
;;
esac
;;
"ath10k/pre-cal-pci-0000:01:00.0.bin")
case "$board" in
asus,map-ac2200)
caldata_extract_ubi "Factory" 0x9000 0x2f20
ln -sf /lib/firmware/ath10k/pre-cal-pci-0000\:00\:00.0.bin \
/lib/firmware/ath10k/QCA9888/hw2.0/board.bin
;;
avm,fritzrepeater-3000)
/usr/bin/fritz_cal_extract -i 1 -s 0x3D000 -e 0x212 -l 12064 -o /lib/firmware/$FIRMWARE $(find_mtd_chardev "urlader0") || \
/usr/bin/fritz_cal_extract -i 1 -s 0x3C800 -e 0x212 -l 12064 -o /lib/firmware/$FIRMWARE $(find_mtd_chardev "urlader0") || \
/usr/bin/fritz_cal_extract -i 1 -s 0x3C000 -e 0x212 -l 12064 -o /lib/firmware/$FIRMWARE $(find_mtd_chardev "urlader0") || \
/usr/bin/fritz_cal_extract -i 1 -s 0x3D000 -e 0x212 -l 12064 -o /lib/firmware/$FIRMWARE $(find_mtd_chardev "urlader1") || \
/usr/bin/fritz_cal_extract -i 1 -s 0x3C800 -e 0x212 -l 12064 -o /lib/firmware/$FIRMWARE $(find_mtd_chardev "urlader1") || \
/usr/bin/fritz_cal_extract -i 1 -s 0x3C000 -e 0x212 -l 12064 -o /lib/firmware/$FIRMWARE $(find_mtd_chardev "urlader1")
;;
buffalo,wtr-m2133hp)
caldata_extract "ART" 0x9000 0x2f20
ath10k_patch_mac $(mtd_get_mac_binary ORGDATA 0x32)
;;
engenius,eap2200 |\
openmesh,a62)
caldata_extract "0:ART" 0x9000 0x2f20
;;
linksys,ea8300)
caldata_extract "ART" 0x9000 0x2f20
# OEM assigns 4 sequential MACs
ath10k_patch_mac $(macaddr_setbit_la $(macaddr_add "$(cat /sys/class/net/eth0/address)" 4))
;;
esac
;;
"ath10k/pre-cal-ahb-a000000.wifi.bin")
case "$board" in
8dev,habanero-dvk |\
8dev,jalapeno |\
alfa-network,ap120c-ac |\
cilab,meshpoint-one |\
ezviz,cs-w3-wd1200g-eup |\
glinet,gl-b1300 |\
glinet,gl-s1300 |\
linksys,ea6350v3 |\
mobipromo,cm520-79f |\
p2w,r619ac-128m |\
p2w,r619ac |\
qcom,ap-dk01.1-c1)
caldata_extract "ART" 0x1000 0x2f20
;;
aruba,ap-303 |\
aruba,ap-303h |\
aruba,ap-365)
caldata_extract "ART" 0x1000 0x2f20
ath10k_patch_mac $(mtd_get_mac_binary mfginfo 0x1D)
;;
asus,map-ac2200)
caldata_extract_ubi "Factory" 0x1000 0x2f20
;;
asus,rt-ac58u)
CI_UBIPART=UBI_DEV
caldata_extract_ubi "Factory" 0x1000 0x2f20
;;
avm,fritzbox-4040)
/usr/bin/fritz_cal_extract -i 1 -s 0x400 -e 0x207 -l 12064 -o /lib/firmware/$FIRMWARE $(find_mtd_chardev "urlader_config")
;;
avm,fritzbox-7530 |\
avm,fritzrepeater-1200 |\
avm,fritzrepeater-3000)
/usr/bin/fritz_cal_extract -i 1 -s 0x3C000 -e 0x207 -l 12064 -o /lib/firmware/$FIRMWARE $(find_mtd_chardev "urlader0") || \
/usr/bin/fritz_cal_extract -i 1 -s 0x3C800 -e 0x207 -l 12064 -o /lib/firmware/$FIRMWARE $(find_mtd_chardev "urlader0") || \
/usr/bin/fritz_cal_extract -i 1 -s 0x3D000 -e 0x207 -l 12064 -o /lib/firmware/$FIRMWARE $(find_mtd_chardev "urlader0") || \
/usr/bin/fritz_cal_extract -i 1 -s 0x3C000 -e 0x207 -l 12064 -o /lib/firmware/$FIRMWARE $(find_mtd_chardev "urlader1") || \
/usr/bin/fritz_cal_extract -i 1 -s 0x3C800 -e 0x207 -l 12064 -o /lib/firmware/$FIRMWARE $(find_mtd_chardev "urlader1") || \
/usr/bin/fritz_cal_extract -i 1 -s 0x3D000 -e 0x207 -l 12064 -o /lib/firmware/$FIRMWARE $(find_mtd_chardev "urlader1")
;;
buffalo,wtr-m2133hp)
caldata_extract "ART" 0x1000 0x2f20
ath10k_patch_mac $(mtd_get_mac_binary ORGDATA 0x26)
;;
cellc,rtl30vw |\
compex,wpj419 |\
compex,wpj428 |\
engenius,eap1300 |\
engenius,eap2200 |\
openmesh,a42 |\
openmesh,a62 |\
qxwlan,e2600ac-c1 |\
qxwlan,e2600ac-c2 |\
unielec,u4019-32m)
caldata_extract "0:ART" 0x1000 0x2f20
;;
dlink,dap-2610)
caldata_extract "ART" 0x1000 0x2f20
ath10k_patch_mac $(mtd_get_mac_ascii bdcfg wlanmac)
;;
engenius,emd1)
caldata_extract "0:ART" 0x1000 0x2f20
ath10k_patch_mac $(mtd_get_mac_ascii 0:APPSBLENV wlanaddr)
;;
engenius,emr3500)
caldata_extract "0:ART" 0x1000 0x2f20
ath10k_patch_mac $(mtd_get_mac_ascii 0:APPSBLENV ethaddr)
;;
engenius,ens620ext)
caldata_extract "ART" 0x1000 0x2f20
ath10k_patch_mac $(macaddr_add $(mtd_get_mac_ascii u-boot-env ethaddr) +2)
;;
linksys,ea8300)
caldata_extract "ART" 0x1000 0x2f20
ath10k_patch_mac $(macaddr_add "$(cat /sys/class/net/eth0/address)" 2)
;;
meraki,mr33)
caldata_extract_ubi "ART" 0x1000 0x2f20
caldata_valid "202f" || caldata_extract "ART" 0x1000 0x2f20
ath10k_patch_mac $(macaddr_add $(get_mac_binary "/sys/bus/i2c/devices/0-0050/eeprom" 0x66) +2)
;;
netgear,ex6100v2 |\
netgear,ex6150v2)
caldata_extract "ART" 0x1000 0x2f20
ath10k_patch_mac $(mtd_get_mac_binary dnidata 0x0)
;;
teltonika,rutx)
caldata_extract "0:ART" 0x1000 0x2f20
ath10k_patch_mac $(macaddr_add $(mtd_get_mac_binary "0:CONFIG" 0x0) 2)
;;
zyxel,nbg6617 |\
zyxel,wre6606)
caldata_extract "ART" 0x1000 0x2f20
ath10k_patch_mac $(macaddr_add $(cat /sys/class/net/eth0/address) -2)
ath10kcal_extract "0:ART" 4096 12064
;;
esac
;;
"ath10k/pre-cal-ahb-a800000.wifi.bin")
case "$board" in
8dev,habanero-dvk |\
8dev,jalapeno |\
alfa-network,ap120c-ac |\
cilab,meshpoint-one |\
ezviz,cs-w3-wd1200g-eup |\
glinet,gl-b1300 |\
glinet,gl-s1300 |\
linksys,ea6350v3 |\
mobipromo,cm520-79f |\
p2w,r619ac-128m |\
p2w,r619ac |\
qcom,ap-dk01.1-c1)
caldata_extract "ART" 0x5000 0x2f20
;;
aruba,ap-303 |\
aruba,ap-303h |\
aruba,ap-365)
caldata_extract "ART" 0x5000 0x2f20
ath10k_patch_mac $(macaddr_add $(mtd_get_mac_binary mfginfo 0x1D) +1)
;;
asus,map-ac2200)
caldata_extract_ubi "Factory" 0x5000 0x2f20
;;
asus,rt-ac58u)
CI_UBIPART=UBI_DEV
caldata_extract_ubi "Factory" 0x5000 0x2f20
;;
avm,fritzbox-4040)
/usr/bin/fritz_cal_extract -i 1 -s 0x400 -e 0x208 -l 12064 -o /lib/firmware/$FIRMWARE $(find_mtd_chardev "urlader_config")
;;
avm,fritzbox-7530 |\
avm,fritzrepeater-1200 |\
avm,fritzrepeater-3000)
/usr/bin/fritz_cal_extract -i 1 -s 0x3C800 -e 0x208 -l 12064 -o /lib/firmware/$FIRMWARE $(find_mtd_chardev "urlader0") || \
/usr/bin/fritz_cal_extract -i 1 -s 0x3D000 -e 0x208 -l 12064 -o /lib/firmware/$FIRMWARE $(find_mtd_chardev "urlader0") || \
/usr/bin/fritz_cal_extract -i 1 -s 0x3C000 -e 0x208 -l 12064 -o /lib/firmware/$FIRMWARE $(find_mtd_chardev "urlader0") || \
/usr/bin/fritz_cal_extract -i 1 -s 0x3C800 -e 0x208 -l 12064 -o /lib/firmware/$FIRMWARE $(find_mtd_chardev "urlader1") || \
/usr/bin/fritz_cal_extract -i 1 -s 0x3D000 -e 0x208 -l 12064 -o /lib/firmware/$FIRMWARE $(find_mtd_chardev "urlader1") || \
/usr/bin/fritz_cal_extract -i 1 -s 0x3C000 -e 0x208 -l 12064 -o /lib/firmware/$FIRMWARE $(find_mtd_chardev "urlader1")
;;
buffalo,wtr-m2133hp)
caldata_extract "ART" 0x5000 0x2f20
ath10k_patch_mac $(mtd_get_mac_binary ORGDATA 0x2c)
;;
cellc,rtl30vw |\
compex,wpj419 |\
compex,wpj428 |\
engenius,eap1300 |\
engenius,eap2200 |\
openmesh,a42 |\
openmesh,a62 |\
qxwlan,e2600ac-c1 |\
qxwlan,e2600ac-c2 |\
unielec,u4019-32m)
caldata_extract "0:ART" 0x5000 0x2f20
;;
dlink,dap-2610)
caldata_extract "ART" 0x5000 0x2f20
ath10k_patch_mac $(mtd_get_mac_ascii bdcfg wlanmac_a)
;;
engenius,emd1)
caldata_extract "0:ART" 0x5000 0x2f20
ath10k_patch_mac $(macaddr_add $(mtd_get_mac_ascii 0:APPSBLENV wlanaddr) +1)
;;
engenius,emr3500)
caldata_extract "0:ART" 0x5000 0x2f20
ath10k_patch_mac $(macaddr_add $(mtd_get_mac_ascii 0:APPSBLENV ethaddr) +1)
;;
engenius,ens620ext)
caldata_extract "ART" 0x5000 0x2f20
ath10k_patch_mac $(macaddr_add $(mtd_get_mac_ascii u-boot-env ethaddr) +3)
;;
linksys,ea8300)
caldata_extract "ART" 0x5000 0x2f20
ath10k_patch_mac $(macaddr_add "$(cat /sys/class/net/eth0/address)" 3)
;;
meraki,mr33)
caldata_extract_ubi "ART" 0x5000 0x2f20
caldata_valid "202f" || caldata_extract "ART" 0x5000 0x2f20
ath10k_patch_mac $(macaddr_add $(get_mac_binary "/sys/bus/i2c/devices/0-0050/eeprom" 0x66) +3)
;;
netgear,ex6100v2 |\
netgear,ex6150v2)
caldata_extract "ART" 0x5000 0x2f20
ath10k_patch_mac $(mtd_get_mac_binary dnidata 0xc)
;;
teltonika,rutx)
caldata_extract "0:ART" 0x1000 0x2f20
ath10k_patch_mac $(macaddr_add $(mtd_get_mac_binary "0:CONFIG" 0x0) 3)
;;
zyxel,nbg6617 |\
zyxel,wre6606)
caldata_extract "ART" 0x5000 0x2f20
ath10k_patch_mac $(macaddr_add $(cat /sys/class/net/eth0/address) -1)
ath10kcal_extract "0:ART" 20480 12064
;;
esac
;;

23
root/target/linux/ipq40xx/base-files/etc/hotplug.d/ieee80211/09_fix_wifi_mac Normal file
View file

@ -0,0 +1,23 @@
#!/bin/ash
[ "$ACTION" == "add" ] || exit 0
PHYNBR=${DEVPATH##*/phy}
[ -n $PHYNBR ] || exit 0
. /lib/functions.sh
. /lib/functions/system.sh
board=$(board_name)
case "$board" in
teltonika,rutx)
mac_addr=$(mtd_get_mac_binary 0:CONFIG 0)
if [ "$mac_addr" != "ff:ff:ff:ff:ff:ff" ]; then
echo $(macaddr_add $mac_addr $(($PHYNBR + 2)) ) > /sys${DEVPATH}/macaddress
fi
;;
*)
;;
esac

70
root/target/linux/ipq40xx/base-files/etc/init.d/boot Executable file
View file

@ -0,0 +1,70 @@
#!/bin/sh /etc/rc.common
# Copyright (C) 2006-2011 OpenWrt.org
START=10
STOP=90
uci_apply_defaults() {
. /lib/functions/system.sh
cd /etc/uci-defaults || return 0
files="$(find . -type f | sort)"
[ -z "$files" ] && return 0
mkdir -p /tmp/.uci
for file in $files; do
( . "./$file" ) && rm -f "$file"
done
uci commit
}
boot() {
[ -f /proc/mounts ] || /sbin/mount_root
[ -f /proc/jffs2_bbc ] && echo "S" > /proc/jffs2_bbc
mkdir -p /var/run
mkdir -p /var/log
mkdir -p /var/lock
mkdir -p /var/state
mkdir -p /var/tmp
mkdir -p /tmp/.uci
chmod 0700 /tmp/.uci
touch /var/log/wtmp
touch /var/log/lastlog
mkdir -p /tmp/resolv.conf.d
touch /tmp/resolv.conf.d/resolv.conf.auto
ln -sf /tmp/resolv.conf.d/resolv.conf.auto /tmp/resolv.conf
grep -q debugfs /proc/filesystems && /bin/mount -o noatime -t debugfs debugfs /sys/kernel/debug
grep -q bpf /proc/filesystems && /bin/mount -o nosuid,nodev,noexec,noatime,mode=0700 -t bpf bpffs /sys/fs/bpf
grep -q pstore /proc/filesystems && /bin/mount -o noatime -t pstore pstore /sys/fs/pstore
# mount all entries in fstab
/bin/mount -a &
# /log directory might be created on preinit
# symlink /storage to /log on TRB14X devices
[ -d /storage -a ! -h /log ] && {
rm -rf /log
ln -sf /storage /log
}
# Wifi ---
param=$(/sbin/mnf_info "--name")
router_name=${param:0:6}
if [ $router_name == "RUTX08" ] || [ $router_name == "RUTX09" ]; then
rm /etc/modules.d/ath10k
fi
/bin/board_detect
/sbin/kmodloader
/bin/config_generate
uci_apply_defaults
[ -f "/etc/config/teltonika" ] && rm /etc/config/teltonika
# temporary hack until configd exists
/sbin/reload_config
# leave finished boot script indication
touch /var/run/boot-done
}

13
root/target/linux/ipq40xx/base-files/etc/init.d/done Executable file
View file

@ -0,0 +1,13 @@
#!/bin/sh /etc/rc.common
# Copyright (C) 2006 OpenWrt.org
START=95
boot() {
mount_root done
rm -f /sysupgrade.tgz && sync
# process user commands
[ -f /etc/rc.local ] && {
sh /etc/rc.local
}
}

66
root/target/linux/ipq40xx/base-files/etc/init.d/gpio_switch Executable file
View file

@ -0,0 +1,66 @@
#!/bin/sh /etc/rc.common
# Copyright (C) 2015 OpenWrt.org
START=94
STOP=10
USE_PROCD=1
load_gpio_switch()
{
local name
local gpio_pin
local value
config_get gpio_pin "$1" gpio_pin
config_get name "$1" name
config_get value "$1" value 0
[ -z "$gpio_pin" ] && {
echo >&2 "Skipping gpio_switch '$name' due to missing gpio_pin"
return 1
}
local gpio_path
if [ -n "$(echo "$gpio_pin" | grep -E "^[0-9]+$")" ]; then
gpio_path="/sys/class/gpio/gpio${gpio_pin}"
# export GPIO pin for access
[ -d "$gpio_path" ] || {
echo "$gpio_pin" >/sys/class/gpio/export
# we need to wait a bit until the GPIO appears
[ -d "$gpio_path" ] || sleep 1
}
# direction attribute only exists if the kernel supports changing the
# direction of a GPIO
if [ -e "${gpio_path}/direction" ]; then
# set the pin to output with high or low pin value
{ [ "$value" = "0" ] && echo "low" || echo "high"; } \
>"$gpio_path/direction"
else
{ [ "$value" = "0" ] && echo "0" || echo "1"; } \
>"$gpio_path/value"
fi
else
gpio_path="/sys/class/gpio/${gpio_pin}"
[ -d "$gpio_path" ] && {
{ [ "$value" = "0" ] && echo "0" || echo "1"; } \
>"$gpio_path/value"
}
fi
}
service_triggers()
{
procd_add_reload_trigger "system"
}
start_service()
{
[ -e /sys/class/gpio/ ] && {
config_load system
config_foreach load_gpio_switch gpio_switch
}
}

140
root/target/linux/ipq40xx/base-files/etc/init.d/led Executable file
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@ -0,0 +1,140 @@
#!/bin/sh /etc/rc.common
# Copyright (C) 2008 OpenWrt.org
START=96
load_led() {
local name
local sysfs
local trigger
local dev
local ports
local mode
local default
local delayon
local delayoff
local interval
config_get sysfs $1 sysfs
config_get name $1 name "$sysfs"
config_get trigger $1 trigger "none"
config_get dev $1 dev
config_get ports $1 port
config_get mode $1 mode
config_get_bool default $1 default "0"
config_get delayon $1 delayon
config_get delayoff $1 delayoff
config_get interval $1 interval "50"
config_get port_state $1 port_state
config_get delay $1 delay "150"
config_get message $1 message ""
config_get gpio $1 gpio "0"
config_get inverted $1 inverted "0"
if [ "$trigger" = "rssi" ]; then
# handled by rssileds userspace process
return
fi
[ "$trigger" = "usbdev" ] && {
# Backward compatibility: translate to the new trigger
trigger="usbport"
# Translate port of root hub, e.g. 4-1 -> usb4-port1
ports=$(echo "$dev" | sed -n 's/^\([0-9]*\)-\([0-9]*\)$/usb\1-port\2/p')
# Translate port of extra hub, e.g. 2-2.4 -> 2-2-port4
[ -z "$ports" ] && ports=$(echo "$dev" | sed -n 's/\./-port/p')
}
[ -e /sys/class/leds/${sysfs}/brightness ] && {
echo "setting up led ${name}"
printf "%s %s %d\n" \
"$sysfs" \
"$(sed -ne 's/^.*\[\(.*\)\].*$/\1/p' /sys/class/leds/${sysfs}/trigger)" \
"$(cat /sys/class/leds/${sysfs}/brightness)" \
>> /var/run/led.state
[ "$default" = 0 ] &&
echo 0 >/sys/class/leds/${sysfs}/brightness
echo $trigger > /sys/class/leds/${sysfs}/trigger 2> /dev/null
ret="$?"
[ $default = 1 ] &&
cat /sys/class/leds/${sysfs}/max_brightness > /sys/class/leds/${sysfs}/brightness
[ $ret = 0 ] || {
echo >&2 "Skipping trigger '$trigger' for led '$name' due to missing kernel module"
return 1
}
case "$trigger" in
"netdev")
[ -n "$dev" ] && {
echo $dev > /sys/class/leds/${sysfs}/device_name
for m in $mode; do
[ -e "/sys/class/leds/${sysfs}/$m" ] && \
echo 1 > /sys/class/leds/${sysfs}/$m
done
echo $interval > /sys/class/leds/${sysfs}/interval
}
;;
"timer"|"oneshot")
[ -n "$delayon" ] && \
echo $delayon > /sys/class/leds/${sysfs}/delay_on
[ -n "$delayoff" ] && \
echo $delayoff > /sys/class/leds/${sysfs}/delay_off
;;
"usbport")
local p
for p in $ports; do
echo 1 > /sys/class/leds/${sysfs}/ports/$p
done
;;
"port_state")
[ -n "$port_state" ] && \
echo $port_state > /sys/class/leds/${sysfs}/port_state
;;
"gpio")
echo $gpio > /sys/class/leds/${sysfs}/gpio
echo $inverted > /sys/class/leds/${sysfs}/inverted
;;
switch[0-9]*)
local port_mask speed_mask
config_get port_mask $1 port_mask
[ -n "$port_mask" ] && \
echo $port_mask > /sys/class/leds/${sysfs}/port_mask
config_get speed_mask $1 speed_mask
[ -n "$speed_mask" ] && \
echo $speed_mask > /sys/class/leds/${sysfs}/speed_mask
[ -n "$mode" ] && \
echo "$mode" > /sys/class/leds/${sysfs}/mode
;;
esac
}
}
start() {
[ -e /sys/class/leds/ ] && {
[ -s /var/run/led.state ] && {
local led trigger brightness
while read led trigger brightness; do
[ -e "/sys/class/leds/$led/trigger" ] && \
echo "$trigger" > "/sys/class/leds/$led/trigger"
[ -e "/sys/class/leds/$led/brightness" ] && \
echo "$brightness" > "/sys/class/leds/$led/brightness"
done < /var/run/led.state
rm /var/run/led.state
}
config_load system
config_foreach load_led led
}
}

39
root/target/linux/ipq40xx/base-files/etc/init.d/modem_tracker Executable file
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#!/bin/sh /etc/rc.common
# Copyright (C) 2021 Teltonika Networks
START=96
USE_PROCD=1
PROG=/bin/board_track
NAME=board_track
PIDCOUNT=1
start_service() {
config_load system
config_get modem_track system modem_track 1
[ "$modem_track" != 0 ] || return
local pid_file="/var/run/${NAME}.${PIDCOUNT}.pid"
procd_open_instance
procd_set_param command "$PROG"
procd_set_param file /etc/config/system
procd_set_param respawn
procd_set_param stdout 1
procd_set_param pidfile $pid_file
procd_close_instance
}
reload_service() {
stop
start
}
service_triggers() {
procd_add_reload_trigger "system"
}

29
root/target/linux/ipq40xx/base-files/etc/init.d/mount_nand Executable file
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#!/bin/sh /etc/rc.common
# Copyright (C) 2006-2011 OpenWrt.org
START=10
STOP=90
NAND_PART="nand_ubi"
boot() {
# check if spi-nand is present
local mtd=$(grep -i -m 1 "$NAND_PART" /proc/mtd | cut -c 4- | cut -d ':' -f1)
[ -z "$mtd" ] && {
return 0
}
[ ! -e /nand_storage ] && {
mkdir /nand_storage
}
# attach mtd device, automatically format if empty
ubiattach /dev/ubi_ctrl -m "$mtd"
# create default volume, if volume not present
[ ! -e /dev/ubi0_0 ] && {
ubimkvol /dev/ubi0 -m -N nand_storage
}
mount -t ubifs -o sync,noatime,rw ubi0:nand_storage /nand_storage/
}

28
root/target/linux/ipq40xx/base-files/etc/init.d/ntpserver Executable file
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#!/bin/sh /etc/rc.common
# Copyright (C) 2021 Teltonika
START=50
STOP=51
USE_PROCD=1
service_triggers()
{
procd_add_reload_trigger "ntpserver"
}
start_service() {
. /lib/functions.sh
local enabled
config_load ntpserver
config_get enabled general enabled "0"
[ "$enabled" -gt 0 ] || return
logger -t "ntpd" "Starting NTP server"
procd_open_instance
procd_set_param respawn 0
procd_set_param command "ntpd" -ln
procd_close_instance
}

30
root/target/linux/ipq40xx/base-files/etc/init.d/pcrypt-crconf Executable file
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#!/bin/sh /etc/rc.common
# (C) 2013 openwrt.org
START=81
boot() {
SHA_ALGS="sha1-neon sha224-neon sha256-neon sha384-neon sha512-neon md5-generic"
for alg in $SHA_ALGS; do
crconf add driver "authenc(hmac($alg),cbc(aes-generic))" type 3
crconf add driver "pcrypt(authenc(hmac($alg),cbc(aes-generic)))" type 3
done
for alg in $SHA_ALGS; do
crconf add driver "authenc(hmac($alg),cbc(des3_ede-generic))" type 3
crconf add driver "pcrypt(authenc(hmac($alg),cbc(des3_ede-generic)))" type 3
done
}
start() {
return 0
}
restart() {
return 0
}
stop() {
return 0
}

32
root/target/linux/ipq40xx/base-files/etc/init.d/powerctl Executable file
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#!/bin/sh /etc/rc.common
START=98
ipq40xx_power_auto() {
# change scaling governor as ondemand to enable clock scaling based on system load
echo "performance" > /sys/devices/system/cpu/cpu0/cpufreq/scaling_governor
# set scaling min freq as 200 MHz
echo "716000" > /sys/devices/system/cpu/cpu0/cpufreq/scaling_min_freq
# Change sampling rate for frequency scaling decisions to 1s, from 10 ms
#echo "1000000" > /sys/devices/system/cpu/cpufreq/ondemand/sampling_rate
# Change sampling rate for frequency down scaling decision to 10s
#echo 10 > /sys/devices/system/cpu/cpufreq/ondemand/sampling_down_factor
# Change the CPU load threshold above which frequency is up-scaled to
# turbo frequency,to 50%
#echo 50 > /sys/devices/system/cpu/cpufreq/ondemand/up_threshold
}
start() {
. /lib/functions.sh
local board=$(board_name)
case "$board" in
teltonika,rutx | ap-dk01.1-c1 | ap-dk01.1-c2 | ap-dk04.1-c1 | ap-dk04.1-c2 | ap-dk04.1-c3 | \
ap-dk04.1-c4 | ap-dk04.1-c5 | ap-dk05.1-c1 | ap-dk06.1-c1 | ap-dk07.1-c1 | ap-dk07.1-c2 | ap-dk07.1-c3)
ipq40xx_power_auto ;;
esac
}

46
root/target/linux/ipq40xx/base-files/etc/init.d/sysctl Executable file
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#!/bin/sh /etc/rc.common
# Copyright (C) 2006 OpenWrt.org
START=11
apply_defaults() {
local mem="$(awk '/^MemTotal:/ {print $2}' /proc/meminfo)"
local min_free frag_low_thresh frag_high_thresh
if [ "$mem" -gt 65536 ]; then # 128M
min_free=16384
elif [ "$mem" -gt 32768 ]; then # 64M
#Too high for RUT3 device, lets make 2048
#min_free=8192
min_free=2048
else
min_free=1024
frag_low_thresh=393216
frag_high_thresh=524288
fi
sysctl -qw vm.min_free_kbytes="$min_free"
[ "$frag_low_thresh" ] && sysctl -qw \
net.ipv4.ipfrag_low_thresh="$frag_low_thresh" \
net.ipv4.ipfrag_high_thresh="$frag_high_thresh" \
net.ipv6.ip6frag_low_thresh="$frag_low_thresh" \
net.ipv6.ip6frag_high_thresh="$frag_high_thresh" \
net.netfilter.nf_conntrack_frag6_low_thresh="$frag_low_thresh" \
net.netfilter.nf_conntrack_frag6_high_thresh="$frag_high_thresh"
# first set default, then all interfaces to avoid races with appearing interfaces
if [ -d /proc/sys/net/ipv6/conf ]; then
echo 0 > /proc/sys/net/ipv6/conf/default/accept_ra
for iface in /proc/sys/net/ipv6/conf/*/accept_ra; do
echo 0 > "$iface"
done
fi
}
start() {
apply_defaults
for CONF in /etc/sysctl.d/*.conf /etc/sysctl.conf; do
[ -f "$CONF" ] && sysctl -e -p "$CONF" >&-
done
}

34
root/target/linux/ipq40xx/base-files/etc/init.d/sysfixtime Executable file
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#!/bin/sh /etc/rc.common
# Copyright (C) 2013-2014 OpenWrt.org
START=00
STOP=90
RTC_DEV=/dev/rtc0
HWCLOCK=/sbin/hwclock
boot() {
# start && exit 0
local maxtime="$(maxtime)"
local curtime="$(date +%s)"
[ $curtime -lt $maxtime ] && date -s @$maxtime
}
start() {
boot
}
stop() {
[ -e "$RTC_DEV" ] && [ -e "$HWCLOCK" ] && $HWCLOCK -w -u -f $RTC_DEV && \
logger -t sysfixtime "saved '$(date)' to $RTC_DEV"
}
maxtime() {
local file newest
for file in $( find /etc -type f ) ; do
[ -z "$newest" -o "$newest" -ot "$file" ] && newest=$file
done
[ "$newest" ] && date -r "$newest" +%s
}

45
root/target/linux/ipq40xx/base-files/etc/init.d/system Executable file
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#!/bin/sh /etc/rc.common
# Copyright (C) 2014 OpenWrt.org
START=10
USE_PROCD=1
validate_system_section() {
uci_load_validate system system "$1" "$2" \
'hostname:string:%%NAME%%' \
'conloglevel:uinteger' \
'buffersize:uinteger' \
'timezone:string:UTC' \
'zonename:string'
}
system_config() {
[ "$2" = 0 ] || {
echo "validation failed"
return 1
}
echo "$hostname" > /proc/sys/kernel/hostname
[ -z "$conloglevel" -a -z "$buffersize" ] || dmesg ${conloglevel:+-n $conloglevel} ${buffersize:+-s $buffersize}
echo "$timezone" > /tmp/TZ
[ -n "$zonename" ] && [ -f "/usr/share/zoneinfo/${zonename// /_}" ] \
&& ln -sf "/usr/share/zoneinfo/${zonename// /_}" /tmp/localtime \
&& rm -f /tmp/TZ
# apply timezone to kernel
hwclock -u --systz
}
reload_service() {
config_load system
config_foreach validate_system_section system system_config
}
service_triggers() {
procd_add_reload_trigger "system"
procd_add_validation validate_system_section
}
start_service() {
reload_service
}

13
root/target/linux/ipq40xx/base-files/etc/init.d/umount Executable file
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#!/bin/sh /etc/rc.common
# Copyright (C) 2006 OpenWrt.org
STOP=90
restart() {
:
}
stop() {
sync
/bin/umount -a -d -r
}

26
root/target/linux/ipq40xx/base-files/etc/uci-defaults/01_mnf-info Normal file
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#!/bin/sh
SECTION="hwinfo"
CONFIG="hwinfo"
get_hw_info() {
param=$(/sbin/mnf_info "--name")
[ -n "$param" -a ${#param} == 12 ] && uci set "system"."@system[0]"."device_code"=$param
hostname=${param:0:6}
[ -n "$hostname" -a ${#hostname} == 6 -a -z "$(uci -q get system.@system[0].hostname)" ] && uci set "system"."@system[0]"."hostname"=Teltonika-$hostname.com
routername=${param:0:6}
[ -n "$routername" -a ${#routername} == 6 -a -z "$(uci -q get system.@system[0].routername)" ] && uci set "system"."@system[0]"."routername"=$routername
version=$(cat /etc/version)
[ -n "$version" ] && uci set "system"."@system[0]"."device_fw_version"=$version
uci commit "system"
}
# get device information
echo "Reading device information"
get_hw_info
exit 0

28
root/target/linux/ipq40xx/base-files/etc/uci-defaults/02_simcard Normal file
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#!/bin/sh
. /lib/functions.sh
. /lib/functions/board.sh
set_pin() {
local sim="$1"
local modem position num builtin
config_get modem "$sim" modem
builtin=$(is_builtin_modem "$modem")
[ "$builtin" = "0" ] && return
config_get position "$sim" position
#If modem builtin and primary then position num 3 or 4 else 1 or 2
[ "$builtin" = "2" ] && num=$((position + 2)) || num=$position
pin=`/sbin/mnf_info --simpin $num`
[ -z "$pin" ] && return
uci -q set "simcard"."$sim"."pincode"="$pin"
}
config_load simcard
config_foreach set_pin sim
uci commit simcard
exit 0

119
root/target/linux/ipq40xx/base-files/etc/uci-defaults/03_side-widget Normal file
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#!/bin/sh
. /lib/functions.sh
CONFIG="widget"
MOBILE_CONFIG="/etc/config/simcard"
RMS_CONFIG="/etc/config/rms_connect_mqtt"
WIFI_CONFIG="/etc/config/wireless"
ETHERNET=$(uci -q get network.@switch[0].name)
ethernet_widget_exists=0
mobile_widget_exists=0
system_widget_exists=0
wifi_widget_exists=0
rms_widget_exists=0
position=1
radio0_network=1
radio1_network=1
check_for_widgets() {
local widget="$1"
local type
config_get type "$widget" type
if [ "$type" = "ethernet" ]; then
ethernet_widget_exists=1
elif [ "$type" = "mobile" ]; then
mobile_widget_exists=1
elif [ "$type" = "system" ]; then
system_widget_exists=1
elif [ "$type" = "wifi" ]; then
wifi_widget_exists=1
elif [ "$type" = "rms" ]; then
rms_widget_exists=1
fi
}
setup_wifi_fields() {
local iface_section="$1"
local device
config_get device "$iface_section" device
section=$(uci -q add widget widget)
if [ "$device" == "radio0" ]; then
uci -q set $CONFIG."${section}.id"=$device."network${radio0_network}"
let "radio0_network=radio0_network + 1"
elif [ "$device" == "radio1" ]; then
uci -q set $CONFIG."${section}.id"=$device."network${radio1_network}"
let "radio1_network=radio1_network + 1"
fi
uci -q set $CONFIG."${section}.type=wifi"
uci -q set $CONFIG."${section}.position=${position}"
uci -q set $CONFIG."${section}.enabled=1"
let "position=position + 1"
}
check_if_config_exists() {
if [ ! -f "/etc/config/${CONFIG}" ]; then
touch "/etc/config/${CONFIG}"
fi
}
setup_side_widget() {
config_load widget
config_foreach check_for_widgets widget
if [ $ethernet_widget_exists -eq 0 -a -n "$ETHERNET" ]; then
check_if_config_exists
section=$(uci -q add widget widget)
uci -q set $CONFIG."${section}.id=widget1"
uci -q set $CONFIG."${section}.type=ethernet"
uci -q set $CONFIG."${section}.position=${position}"
uci -q set $CONFIG."${section}.enabled=1"
let "position=position + 1"
fi
if [ $mobile_widget_exists -eq 0 -a -s "$MOBILE_CONFIG" -a -f "$MOBILE_CONFIG" ]; then
check_if_config_exists
modem_count=$(jsonfilter -q -i /etc/board.json -e '@["modems"][*]' | wc -l)
for i in $(seq $modem_count)
do
section=$(uci -q add widget widget)
uci -q set $CONFIG."${section}.id=mobile-widget$i"
uci -q set $CONFIG."${section}.type=mobile"
uci -q set $CONFIG."${section}.position=${position}"
uci -q set $CONFIG."${section}.enabled=1"
let "position=position + 1"
done
fi
if [ $system_widget_exists -eq 0 ]; then
check_if_config_exists
section=$(uci -q add widget widget)
uci -q set $CONFIG."${section}.id=widget3"
uci -q set $CONFIG."${section}.type=system"
uci -q set $CONFIG."${section}.position=${position}"
uci -q set $CONFIG."${section}.enabled=1"
let "position=position + 1"
fi
if [ $wifi_widget_exists -eq 0 -a -f "$WIFI_CONFIG" ]; then
check_if_config_exists
config_load wireless
config_foreach setup_wifi_fields wifi-iface
fi
if [ $rms_widget_exists -eq 0 -a -f "$RMS_CONFIG" ]; then
check_if_config_exists
section=$(uci -q add widget widget)
uci -q set $CONFIG."${section}.id=widget5"
uci -q set $CONFIG."${section}.type=rms"
uci -q set $CONFIG."${section}.position=${position}"
uci -q set $CONFIG."${section}.enabled=1"
let "position=position + 1"
fi
uci -q commit $CONFIG
}
setup_side_widget
exit 0

34
root/target/linux/ipq40xx/base-files/etc/uci-defaults/04_migrate-vlan Normal file
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#!/bin/sh
. /lib/functions.sh
move_network(){
local section=$1
local device ports vlan
config_get ports "$section" ports
config_get device "$section" device
config_get vlan "$section" vlan
[ "$vlan" -eq 1 ] && {
if list_contains "ports" "0t" && list_contains "ports" "5"; then
uci_set network "$section" ports "${ports/0t/0}"
uci_set network "$section" vlan "2"
uci_remove network "$section" vid
fi
}
[ "$vlan" -eq 2 ] && {
if list_contains ports "0t"; then
echo "Contains"
uci_set network "$section" ports "${ports/0t/0}"
uci_set network "$section" vlan "1"
uci_remove network "$section" vid
fi
}
}
config_load network
config_foreach move_network switch_vlan
uci_commit network
exit 0

16
root/target/linux/ipq40xx/base-files/etc/uci-defaults/05_add_mctl_cfg Normal file
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#!/bin/sh
[ -n "$(uci -q get system.modem.disable)" ] || {
for m in /sys/class/gpio/modem*_power; do
local label="$(basename $m | awk -F_ '{print $1}')"
uci set "system.${label}=mctl"
uci set "system.${label}.disable=0"
# modem is turned on in preinit but others are not
[ "${label}" != "modem" ] && /sbin/mctl -p -m "${label}"
done
uci commit system
}
exit 0

35
root/target/linux/ipq40xx/base-files/etc/uci-defaults/13_migrate-groups Executable file
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#!/bin/sh
. /lib/functions.sh
CONFIG="/etc/config/user_groups"
migrate_tel_list() {
local tel="$1"
local new_section="$2"
uci -q add_list user_groups."$new_section".tel="$tel"
}
migrate_group() {
local group="$1"
local name
config_get name "$group" name ""
local new_section=`uci -q add user_groups phone`
uci -q set user_groups."$new_section".name="$name"
config_list_foreach "$group" tel migrate_tel_list "$new_section"
uci -q delete sms_utils."$group"
}
if [ ! -e "$CONFIG" ]; then
touch "$CONFIG"
fi
config_load sms_utils
config_foreach migrate_group group
uci -q commit user_groups
uci -q commit sms_utils
exit 0

140
root/target/linux/ipq40xx/base-files/etc/uci-defaults/40_strongswan_to_ipsec Executable file
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#!/bin/sh
[ -e /etc/config/strongswan ] || exit 0
. /lib/functions.sh
ENABLED=0
move_config() {
local name=$1
#get old config
config_get_bool enabled "$1" "enabled" "0"
config_get keyexchange "$1" "keyexchange"
config_get aggressive "$1" "aggressive"
config_get ipsec_type "$1" "ipsec_type"
config_get my_identifier_type "$1" "my_identifier_type"
config_get my_identifier "$1" "my_identifier"
config_get leftfirewall "$1" "leftfirewall"
config_get forceencaps "$1" "forceencaps"
config_get dpdaction "$1" "dpdaction" "none"
config_get dpddelay "$1" "dpddelay"
config_get dpdtimeout "$1" "dpdtimeout"
config_get psk_key "$1" "psk_key"
config_get right "$1" "right"
config_get rightfirewall "$1" "rightfirewall"
config_get ike_encryption_algorithm "$1" "ike_encryption_algorithm"
config_get ike_authentication_algorithm "$1" "ike_authentication_algorithm"
config_get ike_dh_group "$1" "ike_dh_group"
config_get ikelifetime "$1" "ikelifetime"
config_get esp_encryption_algorithm "$1" "esp_encryption_algorithm"
config_get esp_hash_algorithm "$1" "esp_hash_algorithm"
config_get esp_pfs_group "$1" "esp_pfs_group"
config_get keylife "$1" "keylife"
config_get leftsubnet "$1" "leftsubnet"
config_get rightsubnet "$1" "rightsubnet"
config_get leftprotoport "$1" "leftprotoport"
config_get rightprotoport "$1" "rightprotoport"
[ "$enabled" = 1 ] && ENABLED=1
#set new config structure
config_set
uci_add "ipsec" "proposal" "${name}_ph1"
uci_set "ipsec" $CONFIG_SECTION "encryption_algorithm" "$ike_encryption_algorithm"
uci_set "ipsec" $CONFIG_SECTION "hash_algorithm" "$ike_authentication_algorithm"
uci_set "ipsec" $CONFIG_SECTION "dh_group" "$ike_dh_group"
uci_add "ipsec" "proposal" "${name}_ph2"
uci_set "ipsec" $CONFIG_SECTION "encryption_algorithm" "$esp_encryption_algorithm"
uci_set "ipsec" $CONFIG_SECTION "hash_algorithm" "$esp_hash_algorithm"
uci_set "ipsec" $CONFIG_SECTION "dh_group" "$esp_pfs_group"
uci_add "ipsec" "connection" "${name}_c"
uci_set "ipsec" $CONFIG_SECTION "mode" "start"
uci_set "ipsec" $CONFIG_SECTION "type" "$ipsec_type"
uci_set "ipsec" $CONFIG_SECTION "local_subnet" "$leftsubnet"
uci_set "ipsec" $CONFIG_SECTION "remote_subnet" "$rightsubnet"
uci_set "ipsec" $CONFIG_SECTION "remote_firewall" "$rightfirewall"
uci_set "ipsec" $CONFIG_SECTION "keyexchange" "$keyexchange"
uci_set "ipsec" $CONFIG_SECTION "aggressive" "$aggressive"
uci_set "ipsec" $CONFIG_SECTION "ikelifetime" "$ikelifetime"
uci_set "ipsec" $CONFIG_SECTION "lifetime" "$lifetime"
[ -n "$dpdaction" ] && {
uci_set "ipsec" $CONFIG_SECTION "_dpd" "1"
uci_set "ipsec" $CONFIG_SECTION "dpdaction" "$dpdaction"
uci_set "ipsec" $CONFIG_SECTION "dpddelay" "$dpddelay"
}
uci_set "ipsec" $CONFIG_SECTION "crypto_proposal" "${name}_ph2"
uci_set "ipsec" $CONFIG_SECTION "leftprotoport" "$leftprotoport"
uci_set "ipsec" $CONFIG_SECTION "rightprotoport" "$rightprotoport"
uci_set "ipsec" $CONFIG_SECTION "lifetime" "$keylife"
uci_set "ipsec" $CONFIG_SECTION "forceencaps" "$forceencaps"
uci_add "ipsec" "remote" "${name}"
uci_set "ipsec" $CONFIG_SECTION "enabled" "$enabled"
uci_set "ipsec" $CONFIG_SECTION "gateway" "$right"
uci_set "ipsec" $CONFIG_SECTION "remote_identifier" "%any"
uci_set "ipsec" $CONFIG_SECTION "authentication_method" "psk"
uci_set "ipsec" $CONFIG_SECTION "pre_shared_key" "$psk_key"
uci_set "ipsec" $CONFIG_SECTION "local_identifier" "$my_identifier"
uci_set "ipsec" $CONFIG_SECTION "crypto_proposal" "${name}_ph1"
[ "$ipsec_type" = "tunnel" ] && uci -q add_list "ipsec"."${CONFIG_SECTION}"."tunnel"="${name}_c"
[ "$ipsec_type" = "transport" ] && uci -q add_list "ipsec"."${CONFIG_SECTION}"."transport"="${name}_c"
uci_commit "ipsec"
}
config_load 'strongswan'
config_foreach move_config 'conn'
[ "$ENABLED" = 1 ] && {
uci_add firewall rule
uci_set firewall "$CONFIG_SECTION" src 'wan'
uci_set firewall "$CONFIG_SECTION" name 'Allow-IPsec-ESP'
uci_set firewall "$CONFIG_SECTION" target 'ACCEPT'
uci_set firewall "$CONFIG_SECTION" vpn_type 'IPsec'
uci_set firewall "$CONFIG_SECTION" proto 'esp'
uci_add firewall rule
uci_set firewall "$CONFIG_SECTION" dest_port '4500'
uci_set firewall "$CONFIG_SECTION" src 'wan'
uci_set firewall "$CONFIG_SECTION" name 'Allow-IPsec-NAT-T'
uci_set firewall "$CONFIG_SECTION" target 'ACCEPT'
uci_set firewall "$CONFIG_SECTION" vpn_type 'IPsec'
uci_set firewall "$CONFIG_SECTION" proto 'udp'
uci_add firewall rule
uci_set firewall "$CONFIG_SECTION" dest_port '500'
uci_set firewall "$CONFIG_SECTION" src 'wan'
uci_set firewall "$CONFIG_SECTION" name 'Allow-IPsec-IKE'
uci_set firewall "$CONFIG_SECTION" target 'ACCEPT'
uci_set firewall "$CONFIG_SECTION" vpn_type 'IPsec'
uci_set firewall "$CONFIG_SECTION" proto 'udp'
uci_add firewall rule
uci_set firewall "$CONFIG_SECTION" src 'wan'
uci_set firewall "$CONFIG_SECTION" name 'Allow-IPsec-Forward'
uci_set firewall "$CONFIG_SECTION" extra '-m policy --dir in --pol ipsec'
uci_set firewall "$CONFIG_SECTION" target 'ACCEPT'
uci_set firewall "$CONFIG_SECTION" vpn_type 'IPsec'
uci_set firewall "$CONFIG_SECTION" dest '*'
uci_set firewall "$CONFIG_SECTION" proto 'all'
uci_add firewall redirect
uci_set firewall "$CONFIG_SECTION" proto any
uci_set firewall "$CONFIG_SECTION" name Exclude-IPsec-from-NAT
uci_set firewall "$CONFIG_SECTION" extra '-m policy --dir out --pol ipsec'
uci_set firewall "$CONFIG_SECTION" vpn_type IPsec
uci_set firewall "$CONFIG_SECTION" target ACCEPT
uci_set firewall "$CONFIG_SECTION" dest wan
uci_set firewall "$CONFIG_SECTION" enabled 1
uci_commit firewall
}
rm -f /etc/config/strongswan
exit 0

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#!/bin/sh
. /lib/functions.sh
#this script move configuration from 1.x firmware
#it should rename some sections and add option disabled to network config
move_config() {
local section="$1"
local file="$2"
config_get_bool enabled "$1" "enabled" "0"
config_get _name "$1" "_name"
config_get _type "$1" "_type"
[ -z "$_type" ] && config_get _type "$1" "type"
[ "$enabled" -eq 1 ] && [ "$_type" = "client" ] && {
uci set network."$1".auto=1
uci_commit "${config}"
}
[ "${_type}_${_name}" = "$section" ] && return
uci_rename "$file" "$section" "${_type:+${_type}_}${_name}"
uci_commit "${config}"
}
move_network() {
local section="$1"
local net_proto net_name net_type net_enabled
config_get net_proto "$section" "proto"
case "$net_proto" in
pptp|\
l2tp)
config_get net_name "$1" "_name"
config_get_bool net_enabled "$1" "enabled"
[ "client_${net_name}" = "$section" ] && return
[ -n "$net_enabled" ] && {
[ "$net_enabled" = "1" ] && uci_set network "$section" disabled 0 || uci_set network "$section" disabled 1
uci_remove network "$section" enabled
}
uci_rename network "$section" "${net_type:+${net_type}_}${net_name}"
uci_commit network
;;
sstp)
config_get_bool net_enabled "$1" "enabled"
[ -z "$net_enabled" ] && return
[ "$net_enabled" = "1" ] && uci_set network "$section" disabled 0 || uci_set network "$section" disabled 1
uci_remove network "$section" enabled
uci_commit network
;;
*)
return
;;
esac
}
# removes client configurations, because they reside in network and with vuci became unncessary
remove_network() {
local section="$1"
local current_config="$2"
local sectionType
config_get sectionType "$1" "type"
if [ "$sectionType" = "client" ]; then
uci_remove "$current_config" "$section"
uci_commit "$current_config"
fi
}
configs="pptpd xl2tpd"
for config in $configs; do
[ -s /etc/config/${config} ] || continue
config_load "$config"
config_foreach move_config "service" "$config"
config_foreach remove_network "service" "$config"
done
[ -s /etc/config/network ] || exit 0
config_load "network"
config_foreach move_network "interface"
exit 0

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. /usr/share/libubox/jshn.sh
# when device contains 2 internal modems, this function will return '2' if
# selected modem(inc_id) is builtin and primary.
# And if it's only builtin, then '1'
is_builtin_modem() {
local inc_id="$1"
local modem modems id builtin primary
json_init
json_load_file "/etc/board.json"
json_get_keys modems modems
json_select modems
for modem in $modems; do
json_select "$modem"
json_get_vars id builtin primary
[ "$id" = "$inc_id" ] && {
[ -n "$builtin" ] && {
[ -n "$primary" ] && {
echo 2
return
}
echo 1
return
}
echo 0
return
}
json_select ..
done
echo 0
}

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# Copyright (C) 2019 OpenWrt.org
. /lib/functions.sh
. /lib/functions/system.sh
caldata_dd() {
local source=$1
local target=$2
local count=$(($3))
local offset=$(($4))
dd if=$source of=$target iflag=skip_bytes,fullblock bs=$count skip=$offset count=1 2>/dev/null
return $?
}
caldata_die() {
echo "caldata: " "$*"
exit 1
}
caldata_extract() {
local part=$1
local offset=$(($2))
local count=$(($3))
local mtd
mtd=$(find_mtd_chardev $part)
[ -n "$mtd" ] || caldata_die "no mtd device found for partition $part"
caldata_dd $mtd /lib/firmware/$FIRMWARE $count $offset || \
caldata_die "failed to extract calibration data from $mtd"
}
caldata_extract_ubi() {
local part=$1
local offset=$(($2))
local count=$(($3))
local ubidev
local ubi
. /lib/upgrade/nand.sh
ubidev=$(nand_find_ubi $CI_UBIPART)
ubi=$(nand_find_volume $ubidev $part)
[ -n "$ubi" ] || caldata_die "no UBI volume found for $part"
caldata_dd /dev/$ubi /lib/firmware/$FIRMWARE $count $offset || \
caldata_die "failed to extract calibration data from $ubi"
}
caldata_extract_reverse() {
local part=$1
local offset=$2
local count=$(($3))
local mtd
local reversed
local caldata
mtd=$(find_mtd_chardev "$part")
reversed=$(hexdump -v -s $offset -n $count -e '/1 "%02x "' $mtd)
for byte in $reversed; do
caldata="\x${byte}${caldata}"
done
printf "%b" "$caldata" > /lib/firmware/$FIRMWARE
}
caldata_from_file() {
local source=$1
local offset=$(($2))
local count=$(($3))
local target=$4
[ -n "$target" ] || target=/lib/firmware/$FIRMWARE
caldata_dd $source $target $count $offset || \
caldata_die "failed to extract calibration data from $source"
}
caldata_sysfsload_from_file() {
local source=$1
local offset=$(($2))
local count=$(($3))
local target_dir="/sys/$DEVPATH"
local target="$target_dir/data"
[ -d "$target_dir" ] || \
caldata_die "no sysfs dir to write: $target"
echo 1 > "$target_dir/loading"
caldata_dd $source $target $count $offset
if [ $? != 0 ]; then
echo 1 > "$target_dir/loading"
caldata_die "failed to extract calibration data from $source"
else
echo 0 > "$target_dir/loading"
fi
}
caldata_valid() {
local expected="$1"
local target=$2
[ -n "$target" ] || target=/lib/firmware/$FIRMWARE
magic=$(hexdump -v -n 2 -e '1/1 "%02x"' $target)
[ "$magic" = "$expected" ]
return $?
}
caldata_patch_chksum() {
local mac=$1
local mac_offset=$(($2))
local chksum_offset=$(($3))
local target=$4
local xor_mac
local xor_fw_mac
local xor_fw_chksum
xor_mac=${mac//:/}
xor_mac="${xor_mac:0:4} ${xor_mac:4:4} ${xor_mac:8:4}"
xor_fw_mac=$(hexdump -v -n 6 -s $mac_offset -e '/1 "%02x"' /lib/firmware/$FIRMWARE)
xor_fw_mac="${xor_fw_mac:0:4} ${xor_fw_mac:4:4} ${xor_fw_mac:8:4}"
xor_fw_chksum=$(hexdump -v -n 2 -s $chksum_offset -e '/1 "%02x"' /lib/firmware/$FIRMWARE)
xor_fw_chksum=$(xor $xor_fw_chksum $xor_fw_mac $xor_mac)
printf "%b" "\x${xor_fw_chksum:0:2}\x${xor_fw_chksum:2:2}" | \
dd of=$target conv=notrunc bs=1 seek=$chksum_offset count=2
}
caldata_patch_mac() {
local mac=$1
local mac_offset=$(($2))
local chksum_offset=$3
local target=$4
[ -z "$mac" -o -z "$mac_offset" ] && return
[ -n "$target" ] || target=/lib/firmware/$FIRMWARE
[ -n "$chksum_offset" ] && caldata_patch_chksum "$mac" "$mac_offset" "$chksum_offset" "$target"
macaddr_2bin $mac | dd of=$target conv=notrunc oflag=seek_bytes bs=6 seek=$mac_offset count=1 || \
caldata_die "failed to write MAC address to eeprom file"
}
ath9k_patch_mac() {
local mac=$1
local target=$2
caldata_patch_mac "$mac" 0x2 "" "$target"
}
ath9k_patch_mac_crc() {
local mac=$1
local mac_offset=$2
local chksum_offset=$((mac_offset - 10))
local target=$4
caldata_patch_mac "$mac" "$mac_offset" "$chksum_offset" "$target"
}
ath10k_patch_mac() {
local mac=$1
local target=$2
caldata_patch_mac "$mac" 0x6 0x2 "$target"
}

94
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# Copyright (C) 2013 OpenWrt.org
get_dt_led_path() {
local ledpath
local basepath="/proc/device-tree"
local nodepath="$basepath/aliases/led-$1"
[ -f "$nodepath" ] && ledpath=$(cat "$nodepath")
[ -n "$ledpath" ] && ledpath="$basepath$ledpath"
echo "$ledpath"
}
get_dt_led() {
local label
local ledpath=$(get_dt_led_path $1)
[ -n "$ledpath" ] && \
label=$(cat "$ledpath/label" 2>/dev/null) || \
label=$(cat "$ledpath/chan-name" 2>/dev/null) || \
label=$(basename "$ledpath")
echo "$label"
}
led_set_attr() {
[ -f "/sys/class/leds/$1/$2" ] && echo "$3" > "/sys/class/leds/$1/$2"
}
led_timer() {
led_set_attr $1 "trigger" "timer"
led_set_attr $1 "delay_on" "$2"
led_set_attr $1 "delay_off" "$3"
}
led_on() {
led_set_attr $1 "trigger" "none"
led_set_attr $1 "brightness" 255
}
led_off() {
led_set_attr $1 "trigger" "none"
led_set_attr $1 "brightness" 0
}
status_led_restore_trigger() {
local trigger
local ledpath=$(get_dt_led_path $1)
[ -n "$ledpath" ] && \
trigger=$(cat "$ledpath/linux,default-trigger" 2>/dev/null)
[ -n "$trigger" ] && \
led_set_attr "$(get_dt_led $1)" "trigger" "$trigger"
}
status_led_set_timer() {
led_timer $status_led "$1" "$2"
[ -n "$status_led2" ] && led_timer $status_led2 "$1" "$2"
}
status_led_set_heartbeat() {
led_set_attr $status_led "trigger" "heartbeat"
}
status_led_on() {
led_on $status_led
[ -n "$status_led2" ] && led_on $status_led2
}
status_led_off() {
led_off $status_led
[ -n "$status_led2" ] && led_off $status_led2
}
status_led_blink_slow() {
led_timer $status_led 1000 1000
}
status_led_blink_fast() {
led_timer $status_led 100 100
}
status_led_blink_preinit() {
led_timer $status_led 100 100
}
status_led_blink_failsafe() {
led_timer $status_led 50 50
}
status_led_blink_preinit_regular() {
led_timer $status_led 200 200
}

196
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#!/bin/sh
. /lib/functions.sh
. /usr/share/libubox/jshn.sh
CFG_PATH="/etc/config/"
get_section_name() {
local ___var="$1"
[ "$#" -ge 1 ] && shift
local ___type="$1"
[ "$#" -ge 1 ] && shift
local section cfgtype
[ -z "$CONFIG_SECTIONS" ] && return 0
for section in ${CONFIG_SECTIONS}; do
config_get cfgtype "$section" TYPE
[ -n "$___type" -a "x$cfgtype" != "x$___type" ] && continue
eval export "${___var}=\${section}"
return 0
done
}
_set_option() {
local option="$1"
local value="$2"
uci_set "$_NEW_CONFIG" "$_NEW_SEC_NAME" "$option" "$value"
}
_set_list_option() {
local option="$1"
local value="$2"
for element in $value; do
uci_add_list "$_NEW_CONFIG" "$_NEW_SEC_NAME" "$option" "$element"
done
}
_del_uci_element() {
local section="$1"
local option="$2"
uci_remove "$_OLD_CONFIG" "$section" "$option"
}
_option_cond_cb() {
local value=$3
json_select $2
json_get_var old 1
json_get_var new 2
[ "$old" = "$value" ] && _COND_VALUE="$new"
json_select ..
}
_parse_condition(){
local value="$1"
_COND_VALUE=
json_for_each_item _option_cond_cb "if" "$value"
}
_option_rule_cb(){
local rule="$1"
local option="$2"
local value
[ -n "$rule" ] || return 0
json_select "$option"
json_get_vars new_name "if" default cb type
if [ -n "$cb" ]; then
eval "$cb \"\$option\" \"\$_OLD_SEC_NAME\" \"\$_NEW_SEC_NAME\""
[ "$?" -eq 0 ] && {
json_select ..
return 0
}
value="$_OPTION_VALUE"
else
config_get value $_OLD_SEC_NAME "$option" "$default"
fi
[ -n "$if" ] && {
_parse_condition "$value"
value="${_COND_VALUE:-${value:-$default}}"
}
if [ -n "$type" -a "$type" = "list" ]; then
_set_list_option "${new_name:-$option}" "$value"
else
_set_option "${new_name:-$option}" "$value"
fi
json_select ..
}
_init_section() {
local sec_t
json_get_vars old_name new_name new_type old_type
[ -n "$old_name" -o -n "$old_type" ] || return 1
if [ -z "$old_name" ]; then
get_section_name _OLD_SEC_NAME "$old_type"
else
_OLD_SEC_NAME=$old_name
fi
_NEW_SEC_NAME=$new_name
_OLD_SEC_TYPE=$old_type
_NEW_SEC_TYPE=${new_type:-$old_type}
[ -n "$_NEW_SEC_TYPE" ] || \
eval "_NEW_SEC_TYPE=\$CONFIG_${_OLD_SEC_NAME}_TYPE"
if [ -n "$_NEW_SEC_NAME" ]; then
uci set "$_NEW_CONFIG"."$_NEW_SEC_NAME"="$_NEW_SEC_TYPE"
else
_NEW_SEC_NAME="$(uci -q add "$_NEW_CONFIG" "$_NEW_SEC_TYPE")"
fi
[ -n "$_NEW_SEC_NAME" ] || return 1
}
_section_rule_cb(){
local rule="$1"
local section="$2"
local value
[ -n "$rule" ] || return 0
json_select "$section"
json_get_vars cb old_name new_name new_type old_type remove
[ -n "$cb" ] && {
eval "$cb \"\$old_name\" \"\$new_name\" \"\$old_type\" \"\$new_type\""
[ "$?" -eq 0 ] && {
json_select ..
return 0
}
}
_init_section
[ $? -ne 0 ] && {
logger -t "Migration" "Unable to init section"
json_select ..
return 1
}
json_for_each_item _option_rule_cb options
json_select ..
[ -n "$remove" ] && {
_del_uci_element "$old_name"
uci_commit "$_OLD_CONFIG"
}
}
_init_config() {
json_select config
json_get_vars old_name new_name
[ -n "$old_name" ] || return 1
[ -f "$CFG_PATH$old_name" ] || return 1
[ -f "$CFG_PATH$new_name" ] || touch $CFG_PATH$new_name
config_load "$old_name"
_NEW_CONFIG="${new_name:-$old_name}"
_OLD_CONFIG="$old_name"
json_select ..
}
migrate() {
local remove
local json_file="$1"
[ -f "$json_file" ] || return 0
json_init
json_load_file "$json_file"
json_select
_init_config
[ $? -ne 0 ] && {
logger -t "Migration" "Unable to load config"
return 1
}
json_for_each_item _section_rule_cb sections
uci_commit "$_NEW_CONFIG"
json_get_vars remove
[ -n "$remove" ] && rm "$CFG_PATH$_OLD_CONFIG"
}

67
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. /lib/functions.sh
migrate_led_sysfs() {
local cfg="$1"; shift
local tuples="$@"
local sysfs
local name
config_get sysfs ${cfg} sysfs
config_get name ${cfg} name
[ -z "${sysfs}" ] && return
for tuple in ${tuples}; do
local old=${tuple%=*}
local new=${tuple#*=}
local new_sysfs
new_sysfs=$(echo ${sysfs} | sed "s/${old}/${new}/")
[ "${new_sysfs}" = "${sysfs}" ] && continue
uci set system.${cfg}.sysfs="${new_sysfs}"
logger -t led-migration "sysfs option of LED \"${name}\" updated to ${new_sysfs}"
done;
}
remove_devicename_led_sysfs() {
local cfg="$1"; shift
local exceptions="$@"
local sysfs
local name
local new_sysfs
config_get sysfs ${cfg} sysfs
config_get name ${cfg} name
# only continue if two or more colons are present
echo "${sysfs}" | grep -q ":.*:" || return
for exception in ${exceptions}; do
# no change if exceptions provided as argument are found for devicename
echo "${sysfs}" | grep -q "^${exception}:" && return
done
new_sysfs=$(echo ${sysfs} | sed "s/^[^:]*://")
uci set system.${cfg}.sysfs="${new_sysfs}"
logger -t led-migration "sysfs option of LED \"${name}\" updated to ${new_sysfs}"
}
migrate_leds() {
config_load system
config_foreach migrate_led_sysfs led "$@"
}
remove_devicename_leds() {
config_load system
config_foreach remove_devicename_led_sysfs led "$@"
}
migrations_apply() {
local realm="$1"
[ -n "$(uci changes ${realm})" ] && uci -q commit ${realm}
}

247
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#Mobile configuration management lib
. /usr/share/libubox/jshn.sh
. /lib/functions.sh
gsm_soft_reset() {
gsmctl -n -A at+cfun=4
sleep 2
gsmctl -n -A at+cfun=1
}
qmi_error_handle() {
local error="$1"
local modem_id="$2"
$(echo "$error" | grep -q "error") && {
echo "$error"
}
$(echo "$error" | grep -q "Client IDs exhausted") && {
echo "ClientIdsExhausted! reseting counter..."
proto_notify_error "$interface" NO_CID
uqmi -s -d "$device" --sync
return 1
}
# Reik papildyt ERROR handlinima
# $(echo "$error" | grep -q "multiple-connection-to-same-pdn-not-allowed") && {
# echo "Reseting due dublicated connection..."
# qmicli -p -d "$device" --uim-sim-power-off=1
# qmicli -p -d "$device" --uim-sim-power-on=1
# return 1
# }
# $(echo "$error" | grep -q "Transaction timed out") && {
# echo "Device not responding, restarting module"
# gsmctl -O $modem_id -A at+cfun=1,1
# }
#
# $(echo "$error" | grep -q 'verbose call end reason (2,236)') && {
# echo "Failed to start network, clearing all cids"
# qmicli -p -d "$device" --wds-noop --device-open-sync
# return 1
# }
$(echo "$error" | grep -q "Call Failed") && {
echo "Device not responding, restarting module"
sleep 10
gsm_soft_reset
return 1
}
$(echo "$error" | grep -q "Policy Mismatch") && {
echo "Reseting network..."
gsm_soft_reset
return 1
}
$(echo "$error" | grep -q "Failed to connect to service") && {
echo "Device not responding, restarting module"
gsmctl -A at+cfun=1,1
return 1
}
$(echo "$error" | grep -q "error") && {
echo "$error"
}
return 0
}
passthrough_mode=
get_passthrough() {
config_get primary "$1" primary
[ "$primary" = "1" ] && {
config_get sim "$1" position;
passthrough_mode=$(uci -q get network.mob1s${sim}a1.passthrough_mode 2>/dev/null);
}
}
setup_bridge_v4() {
local dev="$1"
local dhcp_param_file="/tmp/dnsmasq.d/bridge"
echo "$parameters4"
json_load "$parameters4"
json_select "ipv4"
json_get_var bridge_ipaddr ip
json_get_var bridge_mask subnet
json_get_var bridge_gateway gateway
json_get_var bridge_dns1 dns1
json_get_var bridge_dns2 dns2
json_init
json_add_string name "${interface}_4"
json_add_string ifname "$dev"
json_add_string proto "none"
json_add_object "data"
ubus call network add_dynamic "$(json_dump)"
IFACE4="${interface}_4"
json_init
json_add_string interface "${interface}_4"
json_add_string zone "lan"
ubus call network.interface set_data "$(json_dump)"
json_init
json_add_string interface "${interface}"
json_add_string bridge_ipaddr "$bridge_ipaddr"
ubus call network.interface set_data "$(json_dump)"
json_init
json_add_string modem "$modem"
json_add_string sim "$sim"
ubus call network.interface."${interface}_4" set_data "$(json_dump)"
json_close_object
ip route add default dev "$dev" table 42
ip route add default dev br-lan table 43
ip route add "$bridge_ipaddr" dev br-lan
ip rule add pref 5042 from "$bridge_ipaddr" lookup 42
ip rule add pref 5043 iif "$dev" lookup 43
#sysctl -w net.ipv4.conf.br-lan.proxy_arp=1 #2>/dev/null
ip neighbor add proxy "$bridge_gateway" dev br-lan
iptables -A postrouting_rule -m comment --comment "Bridge mode" -o "$dev" -j ACCEPT -tnat
config_load simcard
config_foreach get_passthrough sim
> $dhcp_param_file
[ -z "$mac" ] && mac="*:*:*:*:*:*"
[ "$passthrough_mode" != "no_dhcp" ] && {
echo "dhcp-range=tag:mobbridge,$bridge_ipaddr,static,$bridge_mask,${leasetime:-1h}" > "$dhcp_param_file"
echo "shared-network=br-lan,$bridge_ipaddr" >> "$dhcp_param_file"
echo "dhcp-host=$mac,set:mobbridge,$bridge_ipaddr" >> "$dhcp_param_file"
echo "dhcp-option=tag:mobbridge,br-lan,3,$bridge_gateway" >> "$dhcp_param_file"
echo "dhcp-option=tag:mobbridge,br-lan,6,$bridge_dns1,$bridge_dns2" >> "$dhcp_param_file"
echo "server=$bridge_dns1" >> "$dhcp_param_file"
echo "server=$bridge_dns2" >> "$dhcp_param_file"
}
/etc/init.d/dnsmasq reload
swconfig dev 'switch0' set soft_reset 5 &
}
setup_static_v4() {
local dev="$1"
echo "Setting up $dev V4 static"
echo "$parameters4"
json_load "$parameters4"
json_select "ipv4"
json_get_var ip_4 ip
json_get_var dns1_4 dns1
json_get_var dns2_4 dns2
json_init
json_add_string name "${interface}_4"
json_add_string ifname "$dev"
json_add_string proto static
json_add_string gateway "0.0.0.0"
json_add_array ipaddr
json_add_string "" "$ip_4"
json_close_array
json_add_array dns
[ -n "$dns1_4" ] && json_add_string "" "$dns1_4"
[ -n "$dns2_4" ] && json_add_string "" "$dns2_4"
json_close_array
[ -n "$ip4table" ] && json_add_string ip4table "$ip4table"
proto_add_dynamic_defaults
ubus call network add_dynamic "$(json_dump)"
}
setup_dhcp_v4() {
local dev="$1"
echo "Setting up $dev V4 DCHP"
json_init
json_add_string name "${interface}_4"
json_add_string ifname "$dev"
json_add_string proto "dhcp"
json_add_string script "/lib/netifd/dhcp_mobile.script"
[ -n "$ip4table" ] && json_add_string ip4table "$ip4table"
proto_add_dynamic_defaults
[ -n "$zone" ] && json_add_string zone "$zone"
ubus call network add_dynamic "$(json_dump)"
}
setup_dhcp_v6() {
local dev="$1"
echo "Setting up $dev V6 DHCP"
json_init
json_add_string name "${interface}_6"
json_add_string ifname "$dev"
json_add_string proto "dhcpv6"
[ -n "$ip6table" ] && json_add_string ip6table "$ip6table"
json_add_boolean ignore_valid 1
proto_add_dynamic_defaults
# RFC 7278: Extend an IPv6 /64 Prefix to LAN
json_add_string extendprefix 1
[ -n "$zone" ] && json_add_string zone "$zone"
ubus call network add_dynamic "$(json_dump)"
}
setup_static_v6() {
local dev="$1"
echo "Setting up $dev V6 static"
echo "$parameters6"
json_load "$parameters6"
json_select "ipv6"
json_get_var ip6_with_prefix ip
ip_6="${ip6_with_prefix%/*}"
ip_prefix_length="${ip6_with_prefix#*/}"
json_get_var ip6_gateway_with_prefix gateway
gateway_6="${ip6_gateway_with_prefix%/*}"
json_get_var dns1_6 dns1
json_get_var dns2_6 dns2
json_init
json_add_string name "${interface}_6"
json_add_string ifname "$dev"
json_add_string proto static
json_add_string ip6gw "$gateway_6"
json_add_array ip6prefix
json_add_string "" "$ip6_with_prefix"
json_close_array
json_add_array ip6addr
json_add_string "" "$ip6_with_prefix"
json_close_array
json_add_array dns
[ -n "$dns1_6" ] && json_add_string "" "$dns1_6"
[ -n "$dns2_6" ] && json_add_string "" "$dns2_6"
json_close_array
[ -n "$ip6table" ] && json_add_string ip6table "$ip6table"
proto_add_dynamic_defaults
ubus call network add_dynamic "$(json_dump)"
}

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# 1: destination variable
# 2: interface
# 3: path
# 4: separator
# 5: limit
__network_ifstatus() {
local __tmp
[ -z "$__NETWORK_CACHE" ] && {
__tmp="$(ubus call network.interface dump 2>&1)"
case "$?" in
4) : ;;
0) export __NETWORK_CACHE="$__tmp" ;;
*) echo "$__tmp" >&2 ;;
esac
}
__tmp="$(jsonfilter ${4:+-F "$4"} ${5:+-l "$5"} -s "${__NETWORK_CACHE:-{}}" -e "$1=@.interface${2:+[@.interface='$2']}$3")"
[ -z "$__tmp" ] && \
unset "$1" && \
return 1
eval "$__tmp"
}
# determine first IPv4 address of given logical interface
# 1: destination variable
# 2: interface
network_get_ipaddr() {
__network_ifstatus "$1" "$2" "['ipv4-address'][0].address";
}
# determine first IPv6 address of given logical interface
# 1: destination variable
# 2: interface
network_get_ipaddr6() {
__network_ifstatus "$1" "$2" "['ipv6-address'][0].address" || \
__network_ifstatus "$1" "$2" "['ipv6-prefix-assignment'][0]['local-address'].address" || \
return 1
}
# determine first IPv4 subnet of given logical interface
# 1: destination variable
# 2: interface
network_get_subnet() {
__network_ifstatus "$1" "$2" "['ipv4-address'][0]['address','mask']" "/"
}
# determine first IPv6 subnet of given logical interface
# 1: destination variable
# 2: interface
network_get_subnet6() {
local __nets __addr
if network_get_subnets6 __nets "$2"; then
# Attempt to return first non-fe80::/10, non-fc::/7 range
for __addr in $__nets; do
case "$__addr" in fe[8ab]?:*|f[cd]??:*)
continue
esac
export "$1=$__addr"
return 0
done
# Attempt to return first non-fe80::/10 range
for __addr in $__nets; do
case "$__addr" in fe[8ab]?:*)
continue
esac
export "$1=$__addr"
return 0
done
# Return first item
for __addr in $__nets; do
export "$1=$__addr"
return 0
done
fi
unset "$1"
return 1
}
# determine first IPv6 prefix of given logical interface
# 1: destination variable
# 2: interface
network_get_prefix6() {
__network_ifstatus "$1" "$2" "['ipv6-prefix'][0]['address','mask']" "/"
}
# determine all IPv4 addresses of given logical interface
# 1: destination variable
# 2: interface
network_get_ipaddrs() {
__network_ifstatus "$1" "$2" "['ipv4-address'][*].address"
}
# determine all IPv6 addresses of given logical interface
# 1: destination variable
# 2: interface
network_get_ipaddrs6() {
local __addr
local __list=""
if __network_ifstatus "__addr" "$2" "['ipv6-address'][*].address"; then
for __addr in $__addr; do
__list="${__list:+$__list }${__addr}"
done
fi
if __network_ifstatus "__addr" "$2" "['ipv6-prefix-assignment'][*]['local-address'].address"; then
for __addr in $__addr; do
__list="${__list:+$__list }${__addr}"
done
fi
if [ -n "$__list" ]; then
export "$1=$__list"
return 0
fi
unset "$1"
return 1
}
# determine all IP addresses of given logical interface
# 1: destination variable
# 2: interface
network_get_ipaddrs_all() {
local __addr __addr6
network_get_ipaddrs __addr "$2"
network_get_ipaddrs6 __addr6 "$2"
if [ -n "$__addr" -o -n "$__addr6" ]; then
export "$1=${__addr:+$__addr }$__addr6"
return 0
fi
unset "$1"
return 1
}
# determine all IPv4 subnets of given logical interface
# 1: destination variable
# 2: interface
network_get_subnets() {
__network_ifstatus "$1" "$2" "['ipv4-address'][*]['address','mask']" "/ "
}
# determine all IPv6 subnets of given logical interface
# 1: destination variable
# 2: interface
network_get_subnets6() {
local __addr __mask
local __list=""
if __network_ifstatus "__addr" "$2" "['ipv6-address'][*]['address','mask']" "/ "; then
for __addr in $__addr; do
__list="${__list:+$__list }${__addr}"
done
fi
if __network_ifstatus "__addr" "$2" "['ipv6-prefix-assignment'][*]['local-address'].address" && \
__network_ifstatus "__mask" "$2" "['ipv6-prefix-assignment'][*].mask"; then
for __addr in $__addr; do
__list="${__list:+$__list }${__addr}/${__mask%% *}"
__mask="${__mask#* }"
done
fi
if [ -n "$__list" ]; then
export "$1=$__list"
return 0
fi
unset "$1"
return 1
}
# determine all IPv6 prefixes of given logical interface
# 1: destination variable
# 2: interface
network_get_prefixes6() {
__network_ifstatus "$1" "$2" "['ipv6-prefix'][*]['address','mask']" "/ "
}
# determine IPv4 gateway of given logical interface
# 1: destination variable
# 2: interface
# 3: consider inactive gateway if "true" (optional)
network_get_gateway() {
__network_ifstatus "$1" "$2" ".route[@.target='0.0.0.0' && !@.table].nexthop" "" 1 && \
return 0
[ "$3" = 1 -o "$3" = "true" ] && \
__network_ifstatus "$1" "$2" ".inactive.route[@.target='0.0.0.0' && !@.table].nexthop" "" 1
}
# determine IPv6 gateway of given logical interface
# 1: destination variable
# 2: interface
# 3: consider inactive gateway if "true" (optional)
network_get_gateway6() {
__network_ifstatus "$1" "$2" ".route[@.target='::' && !@.table].nexthop" "" 1 && \
return 0
[ "$3" = 1 -o "$3" = "true" ] && \
__network_ifstatus "$1" "$2" ".inactive.route[@.target='::' && !@.table].nexthop" "" 1
}
# determine the DNS servers of the given logical interface
# 1: destination variable
# 2: interface
# 3: consider inactive servers if "true" (optional)
network_get_dnsserver() {
__network_ifstatus "$1" "$2" "['dns-server'][*]" && return 0
[ "$3" = 1 -o "$3" = "true" ] && \
__network_ifstatus "$1" "$2" ".inactive['dns-server'][*]"
}
# determine the domains of the given logical interface
# 1: destination variable
# 2: interface
# 3: consider inactive domains if "true" (optional)
network_get_dnssearch() {
__network_ifstatus "$1" "$2" "['dns-search'][*]" && return 0
[ "$3" = 1 -o "$3" = "true" ] && \
__network_ifstatus "$1" "$2" ".inactive['dns-search'][*]"
}
# 1: destination variable
# 2: addr
# 3: inactive
# 4: limit
__network_wan()
{
limit=1
[ -n "$4" ] && limit="$4"
__network_ifstatus "$1" "" \
"[@.route[@.target='$2' && !@.table]].interface" "" $limit && \
return 0
[ "$3" = 1 -o "$3" = "true" ] && \
__network_ifstatus "$1" "" \
"[@.inactive.route[@.target='$2' && !@.table]].interface" "" $limit
}
# find the logical interface which holds the current IPv4 default route
# 1: destination variable
# 2: consider inactive default routes if "true" (optional)
network_find_wan() { __network_wan "$1" "0.0.0.0" "$2" "$3"; }
# find the logical interface which holds the current IPv6 default route
# 1: destination variable
# 2: consider inactive default routes if "true" (optional)
network_find_wan6() { __network_wan "$1" "::" "$2"; }
# test whether the given logical interface is running
# 1: interface
network_is_up()
{
local __up
__network_ifstatus "__up" "$1" ".up" && [ "$__up" = 1 ]
}
# determine the protocol of the given logical interface
# 1: destination variable
# 2: interface
network_get_protocol() { __network_ifstatus "$1" "$2" ".proto"; }
# determine the uptime of the given logical interface
# 1: destination variable
# 2: interface
network_get_uptime() { __network_ifstatus "$1" "$2" ".uptime"; }
# determine the metric of the given logical interface
# 1: destination variable
# 2: interface
network_get_metric() { __network_ifstatus "$1" "$2" ".metric"; }
# determine the layer 3 linux network device of the given logical interface
# 1: destination variable
# 2: interface
network_get_device() { __network_ifstatus "$1" "$2" ".l3_device"; }
# determine the layer 2 linux network device of the given logical interface
# 1: destination variable
# 2: interface
network_get_physdev() { __network_ifstatus "$1" "$2" ".device"; }
# defer netifd actions on the given linux network device
# 1: device name
network_defer_device()
{
ubus call network.device set_state \
"$(printf '{ "name": "%s", "defer": true }' "$1")" 2>/dev/null
}
# continue netifd actions on the given linux network device
# 1: device name
network_ready_device()
{
ubus call network.device set_state \
"$(printf '{ "name": "%s", "defer": false }' "$1")" 2>/dev/null
}
# flush the internal value cache to force re-reading values from ubus
network_flush_cache() { unset __NETWORK_CACHE; }

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# Copyright (C) 2006-2013 OpenWrt.org
# Copyright (C) 2010 Vertical Communications
boot_hook_splice_start() {
export -n PI_HOOK_SPLICE=1
}
boot_hook_splice_finish() {
local hook
for hook in $PI_STACK_LIST; do
local v; eval "v=\${${hook}_splice:+\$${hook}_splice }$hook"
export -n "${hook}=${v% }"
export -n "${hook}_splice="
done
export -n PI_HOOK_SPLICE=
}
boot_hook_init() {
local hook="${1}_hook"
export -n "PI_STACK_LIST=${PI_STACK_LIST:+$PI_STACK_LIST }$hook"
export -n "$hook="
}
boot_hook_add() {
local hook="${1}_hook${PI_HOOK_SPLICE:+_splice}"
local func="${2}"
[ -n "$func" ] && {
local v; eval "v=\$$hook"
export -n "$hook=${v:+$v }$func"
}
}
boot_hook_shift() {
local hook="${1}_hook"
local rvar="${2}"
local v; eval "v=\$$hook"
[ -n "$v" ] && {
local first="${v%% *}"
[ "$v" != "${v#* }" ] && \
export -n "$hook=${v#* }" || \
export -n "$hook="
export -n "$rvar=$first"
return 0
}
return 1
}
boot_run_hook() {
local hook="$1"
local func
while boot_hook_shift "$hook" func; do
local ran; eval "ran=\$PI_RAN_$func"
[ -n "$ran" ] || {
export -n "PI_RAN_$func=1"
$func "$1" "$2"
}
done
}
pivot() { # <new_root> <old_root>
/bin/mount -o noatime,move /proc $1/proc && \
pivot_root $1 $1$2 && {
/bin/mount -o noatime,move $2/dev /dev
/bin/mount -o noatime,move $2/tmp /tmp
/bin/mount -o noatime,move $2/sys /sys 2>&-
/bin/mount -o noatime,move $2/overlay /overlay 2>&-
return 0
}
}
fopivot() { # <rw_root> <work_dir> <ro_root> <dupe?>
/bin/mount -o noatime,lowerdir=/,upperdir=$1,workdir=$2 -t overlay "overlayfs:$1" /mnt
pivot /mnt $3
}
ramoverlay() {
mkdir -p /tmp/root
/bin/mount -t tmpfs -o noatime,mode=0755 root /tmp/root
mkdir -p /tmp/root/root /tmp/root/work
fopivot /tmp/root/root /tmp/root/work /rom 1
}

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#
# service: simple wrapper around start-stop-daemon
#
# Usage: service ACTION EXEC ARGS...
#
# Action:
# -C check if EXEC is alive
# -S start EXEC, passing it ARGS as its arguments
# -K kill EXEC, sending it a TERM signal if not specified otherwise
#
# Environment variables exposed:
# SERVICE_DAEMONIZE run EXEC in background
# SERVICE_WRITE_PID create a pid-file and use it for matching
# SERVICE_MATCH_EXEC use EXEC command-line for matching (default)
# SERVICE_MATCH_NAME use EXEC process name for matching
# SERVICE_USE_PID assume EXEC create its own pid-file and use it for matching
# SERVICE_NAME process name to use (default to EXEC file part)
# SERVICE_PID_FILE pid file to use (default to /var/run/$SERVICE_NAME.pid)
# SERVICE_SIG signal to send when using -K
# SERVICE_SIG_RELOAD default signal used when reloading
# SERVICE_SIG_STOP default signal used when stopping
# SERVICE_STOP_TIME time to wait for a process to stop gracefully before killing it
# SERVICE_UID user EXEC should be run as
# SERVICE_GID group EXEC should be run as
#
# SERVICE_DEBUG don't do anything, but show what would be done
# SERVICE_QUIET don't print anything
#
SERVICE_QUIET=1
SERVICE_SIG_RELOAD="HUP"
SERVICE_SIG_STOP="TERM"
SERVICE_STOP_TIME=5
SERVICE_MATCH_EXEC=1
service() {
local ssd
local exec
local name
local start
ssd="${SERVICE_DEBUG:+echo }start-stop-daemon${SERVICE_QUIET:+ -q}"
case "$1" in
-C)
ssd="$ssd -K -t"
;;
-S)
ssd="$ssd -S${SERVICE_DAEMONIZE:+ -b}${SERVICE_WRITE_PID:+ -m}"
start=1
;;
-K)
ssd="$ssd -K${SERVICE_SIG:+ -s $SERVICE_SIG}"
;;
*)
echo "service: unknown ACTION '$1'" 1>&2
return 1
esac
shift
exec="$1"
[ -n "$exec" ] || {
echo "service: missing argument" 1>&2
return 1
}
[ -x "$exec" ] || {
echo "service: file '$exec' is not executable" 1>&2
return 1
}
name="${SERVICE_NAME:-${exec##*/}}"
[ -z "$SERVICE_USE_PID$SERVICE_WRITE_PID$SERVICE_PID_FILE" ] \
|| ssd="$ssd -p ${SERVICE_PID_FILE:-/var/run/$name.pid}"
[ -z "$SERVICE_MATCH_NAME" ] || ssd="$ssd -n $name"
ssd="$ssd${SERVICE_UID:+ -c $SERVICE_UID${SERVICE_GID:+:$SERVICE_GID}}"
[ -z "$SERVICE_MATCH_EXEC$start" ] || ssd="$ssd -x $exec"
shift
$ssd${1:+ -- "$@"}
}
service_check() {
service -C "$@"
}
service_signal() {
SERVICE_SIG="${SERVICE_SIG:-USR1}" service -K "$@"
}
service_start() {
service -S "$@"
}
service_stop() {
local try
SERVICE_SIG="${SERVICE_SIG:-$SERVICE_SIG_STOP}" service -K "$@" || return 1
while [ $((try++)) -lt $SERVICE_STOP_TIME ]; do
service -C "$@" || return 0
sleep 1
done
SERVICE_SIG="KILL" service -K "$@"
sleep 1
! service -C "$@"
}
service_reload() {
SERVICE_SIG="${SERVICE_SIG:-$SERVICE_SIG_RELOAD}" service -K "$@"
}

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# Copyright (C) 2006-2013 OpenWrt.org
. /lib/functions.sh
. /usr/share/libubox/jshn.sh
get_mac_binary() {
local path="$1"
local offset="$2"
if ! [ -e "$path" ]; then
echo "get_mac_binary: file $path not found!" >&2
return
fi
hexdump -v -n 6 -s $offset -e '5/1 "%02x:" 1/1 "%02x"' $path 2>/dev/null
}
get_mac_label_dt() {
local basepath="/proc/device-tree"
local macdevice="$(cat "$basepath/aliases/label-mac-device" 2>/dev/null)"
local macaddr
[ -n "$macdevice" ] || return
macaddr=$(get_mac_binary "$basepath/$macdevice/mac-address" 0 2>/dev/null)
[ -n "$macaddr" ] || macaddr=$(get_mac_binary "$basepath/$macdevice/local-mac-address" 0 2>/dev/null)
echo $macaddr
}
get_mac_label_json() {
local cfg="/etc/board.json"
local macaddr
[ -s "$cfg" ] || return
json_init
json_load "$(cat $cfg)"
if json_is_a system object; then
json_select system
json_get_var macaddr label_macaddr
json_select ..
fi
echo $macaddr
}
get_mac_label() {
local macaddr=$(get_mac_label_dt)
[ -n "$macaddr" ] || macaddr=$(get_mac_label_json)
echo $macaddr
}
find_mtd_chardev() {
local INDEX=$(find_mtd_index "$1")
local PREFIX=/dev/mtd
[ -d /dev/mtd ] && PREFIX=/dev/mtd/
echo "${INDEX:+$PREFIX$INDEX}"
}
mtd_get_mac_ascii() {
local mtdname="$1"
local key="$2"
local part
local mac_dirty
part=$(find_mtd_part "$mtdname")
if [ -z "$part" ]; then
echo "mtd_get_mac_ascii: partition $mtdname not found!" >&2
return
fi
mac_dirty=$(strings "$part" | sed -n 's/^'"$key"'=//p')
# "canonicalize" mac
[ -n "$mac_dirty" ] && macaddr_canonicalize "$mac_dirty"
}
mtd_get_mac_text() {
local mtdname=$1
local offset=$(($2))
local part
local mac_dirty
part=$(find_mtd_part "$mtdname")
if [ -z "$part" ]; then
echo "mtd_get_mac_text: partition $mtdname not found!" >&2
return
fi
if [ -z "$offset" ]; then
echo "mtd_get_mac_text: offset missing!" >&2
return
fi
mac_dirty=$(dd if="$part" bs=1 skip="$offset" count=17 2>/dev/null)
# "canonicalize" mac
[ -n "$mac_dirty" ] && macaddr_canonicalize "$mac_dirty"
}
mtd_get_mac_binary() {
local mtdname="$1"
local offset="$2"
local part
part=$(find_mtd_part "$mtdname")
get_mac_binary "$part" "$offset"
}
mtd_get_mac_binary_ubi() {
local mtdname="$1"
local offset="$2"
. /lib/upgrade/nand.sh
local ubidev=$(nand_find_ubi $CI_UBIPART)
local part=$(nand_find_volume $ubidev $1)
get_mac_binary "/dev/$part" "$offset"
}
mtd_get_part_size() {
local part_name=$1
local first dev size erasesize name
while read dev size erasesize name; do
name=${name#'"'}; name=${name%'"'}
if [ "$name" = "$part_name" ]; then
echo $((0x$size))
break
fi
done < /proc/mtd
}
macaddr_add() {
local mac=$1
local val=$2
local oui=${mac%:*:*:*}
local nic=${mac#*:*:*:}
nic=$(printf "%06x" $((0x${nic//:/} + val & 0xffffff)) | sed 's/^\(.\{2\}\)\(.\{2\}\)\(.\{2\}\)/\1:\2:\3/')
echo $oui:$nic
}
macaddr_geteui() {
local mac=$1
local sep=$2
echo ${mac:9:2}$sep${mac:12:2}$sep${mac:15:2}
}
macaddr_setbit() {
local mac=$1
local bit=${2:-0}
[ $bit -gt 0 -a $bit -le 48 ] || return
printf "%012x" $(( 0x${mac//:/} | 2**(48-bit) )) | sed -e 's/\(.\{2\}\)/\1:/g' -e 's/:$//'
}
macaddr_unsetbit() {
local mac=$1
local bit=${2:-0}
[ $bit -gt 0 -a $bit -le 48 ] || return
printf "%012x" $(( 0x${mac//:/} & ~(2**(48-bit)) )) | sed -e 's/\(.\{2\}\)/\1:/g' -e 's/:$//'
}
macaddr_setbit_la() {
macaddr_setbit $1 7
}
macaddr_unsetbit_mc() {
local mac=$1
printf "%02x:%s" $((0x${mac%%:*} & ~0x01)) ${mac#*:}
}
macaddr_random() {
local randsrc=$(get_mac_binary /dev/urandom 0)
echo "$(macaddr_unsetbit_mc "$(macaddr_setbit_la "${randsrc}")")"
}
macaddr_2bin() {
local mac=$1
echo -ne \\x${mac//:/\\x}
}
macaddr_canonicalize() {
local mac="$1"
local canon=""
mac=$(echo -n $mac | tr -d \")
[ ${#mac} -gt 17 ] && return
[ -n "${mac//[a-fA-F0-9\.: -]/}" ] && return
for octet in ${mac//[\.:-]/ }; do
case "${#octet}" in
1)
octet="0${octet}"
;;
2)
;;
4)
octet="${octet:0:2} ${octet:2:2}"
;;
12)
octet="${octet:0:2} ${octet:2:2} ${octet:4:2} ${octet:6:2} ${octet:8:2} ${octet:10:2}"
;;
*)
return
;;
esac
canon=${canon}${canon:+ }${octet}
done
[ ${#canon} -ne 17 ] && return
printf "%02x:%02x:%02x:%02x:%02x:%02x" 0x${canon// / 0x} 2>/dev/null
}

284
root/target/linux/ipq40xx/base-files/lib/functions/teltonika-defaults.sh Executable file
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#!/bin/ash
. /lib/functions.sh
. /usr/share/libubox/jshn.sh
ucidef_add_nand_info() {
local model="$1"
model=${model:0:7}
json_select_object nand
case "$model" in
TRB1412)
json_add_int blocksize 128
json_add_int pagesize 2048
json_add_int subpagesize 2048
;;
TRB1422 |\
TRB1423 |\
TRB1452)
json_add_int blocksize 256
json_add_int pagesize 4096
json_add_int subpagesize 4096
;;
TRB14*0)
json_add_int blocksize 128
json_add_int pagesize 2048
json_add_int subpagesize 2048
;;
TRB14*1)
json_add_int blocksize 256
json_add_int pagesize 4096
json_add_int subpagesize 4096
;;
esac
json_select ..
}
ucidef_add_static_modem_info() {
#Parameters: model usb_id sim_count other_params
local model usb_id count
local modem_counter=0
local sim_count=1
model="$1"
usb_id="$2"
[ -n "$3" ] && sim_count="$3"
json_get_keys count modems
[ -n "$count" ] && modem_counter="$(echo "$count" | wc -w)"
json_select_array "modems"
json_add_object
json_add_string id "$usb_id"
json_add_string num "$((modem_counter + 1))"
json_add_boolean builtin 1
json_add_int simcount "$sim_count"
for i in "$@"; do
case "$i" in
primary)
json_add_boolean primary 1
;;
gps_out)
json_add_boolean gps_out 1
;;
esac
done
json_close_object
json_select ..
}
ucidef_add_trb14x_lte_modem() {
print_array() {
json_add_array $1
for element in $2
do
json_add_string "" "$(echo $element)"
done
json_close_array
}
#Parameters: model primary
local model vendor product boudrate gps type desc control region modem_counter
modem_counter=1
json_select_array "modems"
model="$1"
model=${model:0:7}
case "$model" in
TRB1422)
vendor=05c6
product=9215
;;
TRB1412 |\
TRB1423 |\
TRB1452 |\
TRB140*)
vendor=2c7c
product=0125
;;
TRB14*)
vendor=2c7c
product=0121
;;
esac
case "$model" in
TRB1412 |\
TRB14*0)
region="EU"
[ "$product" = "0121" ] && {
lte_bands="1 3 7 8 20 28"
trysg_bands="wcdma_2100 wcdma_900"
dug_bands="gsm_1800 gsm_900"
}
[ "$product" = "0125" ] && {
lte_bands="1 3 7 8 20 28 38 40 41"
trysg_bands="wcdma_2100 wcdma_900"
dug_bands="gsm_1800 gsm_900"
}
;;
TRB1422)
region="CE"
lte_bands="1 3 5 8 34 38 39 40 41"
trysg_bands="bc-0-a-system bc-0-b-system wcdma_2100 wcdma_900"
dug_bands="gsm_1800 gsm_900"
;;
TRB1423 |\
TRB1452 |\
TRB14*1)
region="AU"
[ "$product" = "0121" ] && {
lte_bands="1 2 3 4 5 7 8 28 40"
trysg_bands="wcdma_2100 wcdma_1900 wcdma_900 wcdma_850"
dug_bands="gsm_1800 gsm_900 gsm_850 gsm_1900"
}
[ "$product" = "0125" ] && {
lte_bands="1 2 3 4 5 7 8 28 40"
trysg_bands="wcdma_2100 wcdma_1900 wcdma_900 wcdma_850"
dug_bands="gsm_1800 gsm_900 gsm_850 gsm_1900"
}
;;
esac
[ -f "/lib/network/wwan/$vendor:$product" ] && {
devicename="3-1"
json_set_namespace defaults old_cb
json_load "$(cat /lib/network/wwan/$vendor:$product)"
json_get_vars gps boudrate type desc control stop_bits
json_set_namespace $old_cb
[ "${devicename%%:*}" = "$devicename" ] && {
json_add_object
json_add_string id "$devicename"
json_add_string num "$modem_counter"
json_add_string vendor "$vendor"
json_add_string product "$product"
json_add_string stop_bits "$stop_bits"
json_add_string gps "$gps"
json_add_string boudrate "$boudrate"
json_add_string type "$type"
json_add_string desc "$desc"
json_add_string region "$region"
json_add_string control "$control"
json_add_int simcount 1
json_add_boolean builtin 1
[ -n "$2" ] && json_add_boolean primary 1
json_add_object service_modes
[ -z "$lte_bands" ] || print_array "4G" "$lte_bands"
[ -z "$trysg_bands" ] || print_array "3G" "$trysg_bands"
[ -z "$dug_bands" ] || print_array "2G" "$dug_bands"
json_close_object
json_close_object
}
}
json_select ..
}
ucidef_add_serial_capabilities() {
json_select_array serial
json_add_object
[ -n "$1" ] && {
json_select_array devices
for d in $1; do
json_add_string "" $d
done
json_select ..
}
json_select_array bauds
for b in $2; do
json_add_string "" $b
done
json_select ..
json_select_array data_bits
for n in $3; do
json_add_string "" $n
done
json_select ..
json_close_object
json_select ..
}
ucidef_set_hwinfo() {
local function
local dual_sim=0
local wifi=0
local dual_band_ssid=0
local wps=0
local mobile=0
local gps=0
local usb=0
local bluetooth=0
local ethernet=0
local sfp_port=0
local ios=0
for function in "$@"; do
case "$function" in
dual_sim)
dual_sim=1
;;
wifi)
wifi=1
;;
dual_band_ssid)
dual_band_ssid=1
;;
wps)
wps=1
;;
mobile)
mobile=1
;;
gps)
gps=1
;;
usb)
usb=1
;;
bluetooth)
bluetooth=1
;;
ethernet)
ethernet=1
;;
sfp_port)
sfp_port=1
;;
ios)
ios=1
;;
at_sim)
at_sim=1
;;
esac
done
json_select_object hwinfo
json_add_boolean dual_sim "$dual_sim"
json_add_boolean usb "$usb"
json_add_boolean bluetooth "$bluetooth"
json_add_boolean wifi "$wifi"
json_add_boolean dual_band_ssid "$dual_band_ssid"
json_add_boolean wps "$wps"
json_add_boolean mobile "$mobile"
json_add_boolean gps "$gps"
json_add_boolean ethernet "$ethernet"
json_add_boolean sfp_port "$sfp_port"
json_add_boolean ios "$ios"
json_add_boolean at_sim "$at_sim"
json_select ..
}
ucidef_set_release_version() {
json_add_string release_version "$1"
}

10
root/target/linux/ipq40xx/base-files/lib/functions/teltonika-functions.sh Executable file
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@ -0,0 +1,10 @@
#!/bin/sh
. /usr/share/libubox/jshn.sh
is_ios_enabled() {
local ios
json_load_file "/etc/board.json" && \
json_select hwinfo && \
json_get_var ios ios && [ "$ios" = "1" ]
}

626
root/target/linux/ipq40xx/base-files/lib/functions/uci-defaults.sh Normal file
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#!/bin/ash
. /lib/functions.sh
. /usr/share/libubox/jshn.sh
json_select_array() {
local _json_no_warning=1
json_select "$1"
[ $? = 0 ] && return
json_add_array "$1"
json_close_array
json_select "$1"
}
json_select_object() {
local _json_no_warning=1
json_select "$1"
[ $? = 0 ] && return
json_add_object "$1"
json_close_object
json_select "$1"
}
ucidef_set_interface() {
local network=$1; shift
[ -z "$network" ] && return
json_select_object network
json_select_object "$network"
while [ -n "$1" ]; do
local opt=$1; shift
local val=$1; shift
[ -n "$opt" -a -n "$val" ] || break
case "$val" in
true) json_add_boolean "$opt" "1" ;;
false) json_add_boolean "$opt" "0" ;;
*) json_add_string "$opt" "$val" ;;
esac
done
if ! json_is_a proto string; then
case "$network" in
lan) json_add_string proto static ;;
wan) json_add_string proto dhcp ;;
*) json_add_string proto none ;;
esac
fi
json_select ..
json_select ..
}
ucidef_set_board_id() {
json_select_object model
json_add_string id "$1"
json_select ..
}
ucidef_set_board_platform() {
json_select_object model
json_add_string platform "$1"
json_select ..
}
ucidef_set_model_name() {
json_select_object model
json_add_string name "$1"
json_select ..
}
ucidef_set_compat_version() {
json_select_object system
json_add_string compat_version "${1:-1.0}"
json_select ..
}
ucidef_set_interface_lan() {
ucidef_set_interface "lan" ifname "$1" proto "${2:-static}"
}
ucidef_set_interface_wan() {
ucidef_set_interface "wan" ifname "$1" proto "${2:-dhcp}"
}
ucidef_set_interfaces_lan_wan() {
local lan_if="$1"
local wan_if="$2"
ucidef_set_interface_lan "$lan_if"
ucidef_set_interface_wan "$wan_if"
}
_ucidef_add_switch_port() {
# inherited: $num $device $need_tag $want_untag $role $index $prev_role
# inherited: $n_cpu $n_ports $n_vlan $cpu0 $cpu1 $cpu2 $cpu3 $cpu4 $cpu5
n_ports=$((n_ports + 1))
json_select_array ports
json_add_object
json_add_int num "$num"
[ -n "$device" ] && json_add_string device "$device"
[ -n "$need_tag" ] && json_add_boolean need_tag "$need_tag"
[ -n "$want_untag" ] && json_add_boolean want_untag "$want_untag"
[ -n "$role" ] && json_add_string role "$role"
[ -n "$index" ] && json_add_int index "$index"
json_close_object
json_select ..
# record pointer to cpu entry for lookup in _ucidef_finish_switch_roles()
[ -n "$device" ] && {
export "cpu$n_cpu=$n_ports"
n_cpu=$((n_cpu + 1))
}
# create/append object to role list
[ -n "$role" ] && {
json_select_array roles
if [ "$role" != "$prev_role" ]; then
json_add_object
json_add_string role "$role"
json_add_string ports "$num"
json_close_object
prev_role="$role"
n_vlan=$((n_vlan + 1))
else
json_select_object "$n_vlan"
json_get_var port ports
json_add_string ports "$port $num"
json_select ..
fi
json_select ..
}
}
_ucidef_finish_switch_roles() {
# inherited: $name $n_cpu $n_vlan $cpu0 $cpu1 $cpu2 $cpu3 $cpu4 $cpu5
local index role roles num device need_tag want_untag port ports
json_select switch
json_select "$name"
json_get_keys roles roles
json_select ..
json_select ..
for index in $roles; do
eval "port=\$cpu$(((index - 1) % n_cpu))"
json_select switch
json_select "$name"
json_select ports
json_select "$port"
json_get_vars num device need_tag want_untag
json_select ..
json_select ..
if [ ${need_tag:-0} -eq 1 -o ${want_untag:-0} -ne 1 ]; then
num="${num}t"
device="${device}.${index}"
fi
json_select roles
json_select "$index"
json_get_vars role ports
json_add_string ports "$ports $num"
json_add_string device "$device"
json_select ..
json_select ..
json_select ..
json_select ..
json_select_object network
local devices
json_select_object "$role"
# attach previous interfaces (for multi-switch devices)
json_get_var devices ifname
if ! list_contains devices "$device"; then
devices="${devices:+$devices }$device"
fi
json_select ..
json_select ..
ucidef_set_interface "$role" ifname "$devices"
done
}
ucidef_set_ar8xxx_switch_mib() {
local name="$1"
local type="$2"
local interval="$3"
json_select_object switch
json_select_object "$name"
json_add_int ar8xxx_mib_type $type
json_add_int ar8xxx_mib_poll_interval $interval
json_select ..
json_select ..
}
ucidef_add_switch() {
local name="$1"; shift
local port num role device index need_tag prev_role
local cpu0 cpu1 cpu2 cpu3 cpu4 cpu5
local n_cpu=0 n_vlan=0 n_ports=0
json_select_object switch
json_select_object "$name"
json_add_boolean enable 1
json_add_boolean reset 1
for port in "$@"; do
case "$port" in
[0-9]*@*)
num="${port%%@*}"
device="${port##*@}"
need_tag=0
want_untag=0
[ "${num%t}" != "$num" ] && {
num="${num%t}"
need_tag=1
}
[ "${num%u}" != "$num" ] && {
num="${num%u}"
want_untag=1
}
;;
[0-9]*:*:[0-9]*)
num="${port%%:*}"
index="${port##*:}"
role="${port#[0-9]*:}"; role="${role%:*}"
;;
[0-9]*:*)
num="${port%%:*}"
role="${port##*:}"
;;
esac
if [ -n "$num" ] && [ -n "$device$role" ]; then
_ucidef_add_switch_port
fi
unset num device role index need_tag want_untag
done
json_select ..
json_select ..
_ucidef_finish_switch_roles
}
ucidef_add_switch_attr() {
local name="$1"
local key="$2"
local val="$3"
json_select_object switch
json_select_object "$name"
case "$val" in
true|false) [ "$val" != "true" ]; json_add_boolean "$key" $? ;;
[0-9]) json_add_int "$key" "$val" ;;
*) json_add_string "$key" "$val" ;;
esac
json_select ..
json_select ..
}
ucidef_add_switch_port_attr() {
local name="$1"
local port="$2"
local key="$3"
local val="$4"
local ports i num
json_select_object switch
json_select_object "$name"
json_get_keys ports ports
json_select_array ports
for i in $ports; do
json_select "$i"
json_get_var num num
if [ -n "$num" ] && [ $num -eq $port ]; then
json_select_object attr
case "$val" in
true|false) [ "$val" != "true" ]; json_add_boolean "$key" $? ;;
[0-9]) json_add_int "$key" "$val" ;;
*) json_add_string "$key" "$val" ;;
esac
json_select ..
fi
json_select ..
done
json_select ..
json_select ..
json_select ..
}
ucidef_set_interface_macaddr() {
local network="$1"
local macaddr="$2"
ucidef_set_interface "$network" macaddr "$macaddr"
}
ucidef_add_atm_bridge() {
local vpi="$1"
local vci="$2"
local encaps="$3"
local payload="$4"
local nameprefix="$5"
json_select_object dsl
json_select_object atmbridge
json_add_int vpi "$vpi"
json_add_int vci "$vci"
json_add_string encaps "$encaps"
json_add_string payload "$payload"
json_add_string nameprefix "$nameprefix"
json_select ..
json_select ..
}
ucidef_add_adsl_modem() {
local annex="$1"
local firmware="$2"
json_select_object dsl
json_select_object modem
json_add_string type "adsl"
json_add_string annex "$annex"
json_add_string firmware "$firmware"
json_select ..
json_select ..
}
ucidef_add_vdsl_modem() {
local annex="$1"
local tone="$2"
local xfer_mode="$3"
json_select_object dsl
json_select_object modem
json_add_string type "vdsl"
json_add_string annex "$annex"
json_add_string tone "$tone"
json_add_string xfer_mode "$xfer_mode"
json_select ..
json_select ..
}
ucidef_set_led_ataport() {
_ucidef_set_led_trigger "$1" "$2" "$3" ata"$4"
}
_ucidef_set_led_common() {
local cfg="led_$1"
local name="$2"
local sysfs="$3"
json_select_object led
json_select_object "$1"
json_add_string name "$name"
json_add_string sysfs "$sysfs"
}
ucidef_set_led_default() {
local default="$4"
_ucidef_set_led_common "$1" "$2" "$3"
json_add_string default "$default"
json_select ..
json_select ..
}
ucidef_set_led_gpio() {
local gpio="$4"
local inverted="$5"
_ucidef_set_led_common "$1" "$2" "$3"
json_add_string trigger "$trigger"
json_add_string type gpio
json_add_int gpio "$gpio"
json_add_boolean inverted "$inverted"
json_select ..
json_select ..
}
ucidef_set_led_ide() {
_ucidef_set_led_trigger "$1" "$2" "$3" disk-activity
}
ucidef_set_led_netdev() {
local dev="$4"
local mode="${5:-link tx rx}"
_ucidef_set_led_common "$1" "$2" "$3"
json_add_string type netdev
json_add_string device "$dev"
json_add_string mode "$mode"
json_select ..
json_select ..
}
ucidef_set_led_oneshot() {
_ucidef_set_led_timer $1 $2 $3 "oneshot" $4 $5
}
ucidef_set_led_portstate() {
local port_state="$4"
_ucidef_set_led_common "$1" "$2" "$3"
json_add_string trigger port_state
json_add_string type portstate
json_add_string port_state "$port_state"
json_select ..
json_select ..
}
ucidef_set_led_rssi() {
local iface="$4"
local minq="$5"
local maxq="$6"
local offset="${7:-0}"
local factor="${8:-1}"
_ucidef_set_led_common "$1" "$2" "$3"
json_add_string type rssi
json_add_string name "$name"
json_add_string iface "$iface"
json_add_string minq "$minq"
json_add_string maxq "$maxq"
json_add_string offset "$offset"
json_add_string factor "$factor"
json_select ..
json_select ..
}
ucidef_set_led_switch() {
local trigger_name="$4"
local port_mask="$5"
local speed_mask="$6"
local mode="$7"
_ucidef_set_led_common "$1" "$2" "$3"
json_add_string trigger "$trigger_name"
json_add_string type switch
json_add_string mode "$mode"
json_add_string port_mask "$port_mask"
json_add_string speed_mask "$speed_mask"
json_select ..
json_select ..
}
_ucidef_set_led_timer() {
local trigger_name="$4"
local delayon="$5"
local delayoff="$6"
_ucidef_set_led_common "$1" "$2" "$3"
json_add_string type "$trigger_name"
json_add_string trigger "$trigger_name"
json_add_int delayon "$delayon"
json_add_int delayoff "$delayoff"
json_select ..
json_select ..
}
ucidef_set_led_timer() {
_ucidef_set_led_timer $1 $2 $3 "timer" $4 $5
}
_ucidef_set_led_trigger() {
local trigger_name="$4"
_ucidef_set_led_common "$1" "$2" "$3"
json_add_string trigger "$trigger_name"
json_select ..
json_select ..
}
ucidef_set_led_usbdev() {
local dev="$4"
_ucidef_set_led_common "$1" "$2" "$3"
json_add_string type usb
json_add_string device "$dev"
json_select ..
json_select ..
}
ucidef_set_led_usbhost() {
_ucidef_set_led_trigger "$1" "$2" "$3" usb-host
}
ucidef_set_led_usbport() {
local obj="$1"
local name="$2"
local sysfs="$3"
shift
shift
shift
_ucidef_set_led_common "$obj" "$name" "$sysfs"
json_add_string type usbport
json_select_array ports
for port in "$@"; do
json_add_string port "$port"
done
json_select ..
json_select ..
json_select ..
}
ucidef_set_led_wlan() {
_ucidef_set_led_trigger "$1" "$2" "$3" "$4"
}
ucidef_set_rssimon() {
local dev="$1"
local refresh="$2"
local threshold="$3"
json_select_object rssimon
json_select_object "$dev"
[ -n "$refresh" ] && json_add_int refresh "$refresh"
[ -n "$threshold" ] && json_add_int threshold "$threshold"
json_select ..
json_select ..
}
ucidef_add_gpio_switch() {
local cfg="$1"
local name="$2"
local pin="$3"
local default="${4:-0}"
json_select_object gpioswitch
json_select_object "$cfg"
json_add_string name "$name"
json_add_int pin "$pin"
json_add_int default "$default"
json_select ..
json_select ..
}
ucidef_set_hostname() {
local hostname="$1"
json_select_object system
json_add_string hostname "$hostname"
json_select ..
}
ucidef_set_ntpserver() {
local server
json_select_object system
json_select_array ntpserver
for server in "$@"; do
json_add_string "" "$server"
done
json_select ..
json_select ..
}
board_config_update() {
json_init
[ -f ${CFG} ] && json_load "$(cat ${CFG})"
# auto-initialize model id and name if applicable
if ! json_is_a model object; then
json_select_object model
[ -f "/tmp/sysinfo/board_name" ] && \
json_add_string id "$(cat /tmp/sysinfo/board_name)"
[ -f "/tmp/sysinfo/model" ] && \
json_add_string name "$(cat /tmp/sysinfo/model)"
json_select ..
fi
}
board_config_flush() {
json_dump -i -o ${CFG}
}

10
root/target/linux/ipq40xx/base-files/lib/preinit/75_stm32_autoflash Normal file
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@ -0,0 +1,10 @@
#!/bin/sh
do_stm32_autoflash() {
# launch STM32 flash utility
[ -e "/sys/r2ec/reset" -a -f /usr/bin/autoflash ] && {
/usr/bin/autoflash
}
}
[ "$INITRAMFS" = "1" ] || boot_hook_add preinit_main do_stm32_autoflash

20
root/target/linux/ipq40xx/base-files/lib/preinit/82_modem_power Normal file
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@ -0,0 +1,20 @@
set_state() {
local label="$1"
local disable
[ -e "/sys/class/gpio/${label}_power/value" ] || return
config_get disable ${label} disable
[ "${disable}" -eq 1 ] && \
/sbin/mctl -s -m "${label}" || \
/sbin/mctl -p -m "${label}"
}
do_power_modem() {
[ -z "$(uci -q get system.modem.disable)" ] && /sbin/mctl -p || {
config_load system
config_foreach set_state mctl
}
}
boot_hook_add preinit_main do_power_modem

21
root/target/linux/ipq40xx/base-files/lib/preinit/82_version_migrate Normal file
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#!/bin/sh
# Copyright (C) 2006 OpenWrt.org
# Copyright (C) 2010 Vertical Communications
do_check_version() {
version="$(uci -q get system.@system[0].device_fw_version)"
[ -z "$version" ] && {
return 0
}
numeric_version="${version##*_}"
client_removed="${numeric_version#*.}"
major="${client_removed%%.*}"
[ -f /sysupgrade.tgz ] && [ -n "$major" ] && [ "$major" -lt 2 ] && {
echo "- migration work -"
cp /rom/etc/inittab /etc/inittab
}
}
[ "$INITRAMFS" = "1" ] || boot_hook_add preinit_main do_check_version

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root/target/linux/ipq40xx/base-files/lib/upgrade/ipq_failsafe.sh Normal file
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find_mmc_part() {
local DEVNAME PARTNAME
if grep -q "$1" /proc/mtd; then
echo "" && return 0
fi
for DEVNAME in /sys/block/mmcblk0/mmcblk*p*; do
PARTNAME=$(grep PARTNAME ${DEVNAME}/uevent | cut -f2 -d'=')
[ "$PARTNAME" = "$1" ] && echo "/dev/$(basename $DEVNAME)" && return 0
done
}
get_full_section_name() {
local img=$1
local sec=$2
dumpimage -l ${img} | grep "^ Image.*(${sec})" | \
sed 's,^ Image.*(\(.*\)),\1,'
}
image_contains() {
local img=$1
local sec=$2
dumpimage -l ${img} | grep -q "^ Image.*(${sec}.*)" || return 1
}
print_sections() {
local img=$1
dumpimage -l ${img} | awk '/^ Image.*(.*)/ { print gensub(/Image .* \((.*)\)/,"\\1", $0) }'
}
image_has_mandatory_section() {
local img=$1
local mandatory_sections=$2
for sec in ${mandatory_sections}; do
image_contains $img ${sec} || {\
return 1
}
done
}
image_demux() {
local img=$1
for sec in $(print_sections ${img}); do
local fullname=$(get_full_section_name ${img} ${sec})
local position=$(dumpimage -l ${img} | grep "(${fullname})" | awk '{print $2}')
dumpimage -i ${img} -o /tmp/${fullname}.bin -T "flat_dt" -p "${position}" ${fullname} > /dev/null || { \
echo "Error while extracting \"${sec}\" from ${img}"
return 1
}
done
return 0
}
image_is_FIT() {
if ! dumpimage -l $1 > /dev/null 2>&1; then
echo "$1 is not a valid FIT image"
return 1
fi
return 0
}
switch_layout() {
local layout=$1
local boot_layout=`find / -name boot_layout`
# Layout switching is only required as the boot images (up to u-boot)
# use 512 user data bytes per code word, whereas Linux uses 516 bytes.
# It's only applicable for NAND flash. So let's return if we don't have
# one.
[ -n "$boot_layout" ] || return
case "${layout}" in
boot|1) echo 1 > $boot_layout;;
linux|0) echo 0 > $boot_layout;;
*) echo "Unknown layout \"${layout}\"";;
esac
}
do_flash_mtd() {
local bin=$1
local mtdname=$2
local append=""
local mtdpart=$(grep "\"${mtdname}\"" /proc/mtd | awk -F: '{print $1}')
local pgsz=$(cat /sys/class/mtd/${mtdpart}/writesize)
[ -f "$CONF_TAR" -a "$SAVE_CONFIG" -eq 1 -a "$2" == "rootfs" ] && append="-j $CONF_TAR"
dd if=/tmp/${bin}.bin bs=${pgsz} conv=sync | mtd $append -e "/dev/${mtdpart}" write - "/dev/${mtdpart}"
}
do_flash_emmc() {
local bin=$1
local emmcblock=$2
dd if=/dev/zero of=${emmcblock}
dd if=/tmp/${bin}.bin of=${emmcblock}
}
do_flash_partition() {
local bin=$1
local mtdname=$2
local emmcblock="$(find_mmc_part "$mtdname")"
if [ -e "$emmcblock" ]; then
do_flash_emmc $bin $emmcblock
else
do_flash_mtd $bin $mtdname
fi
}
do_flash_bootconfig() {
local bin=$1
local mtdname=$2
# Fail safe upgrade
if [ -f /proc/boot_info/getbinary_${bin} ]; then
cat /proc/boot_info/getbinary_${bin} > /tmp/${bin}.bin
do_flash_partition $bin $mtdname
fi
}
do_flash_failsafe_partition() {
local bin=$1
local mtdname=$2
local emmcblock
local primaryboot
# Fail safe upgrade
[ -f /proc/boot_info/$mtdname/upgradepartition ] && {
default_mtd=$mtdname
mtdname=$(cat /proc/boot_info/$mtdname/upgradepartition)
primaryboot=$(cat /proc/boot_info/$default_mtd/primaryboot)
if [ $primaryboot -eq 0 ]; then
echo 1 > /proc/boot_info/$default_mtd/primaryboot
else
echo 0 > /proc/boot_info/$default_mtd/primaryboot
fi
}
emmcblock="$(find_mmc_part "$mtdname")"
if [ -e "$emmcblock" ]; then
do_flash_emmc $bin $emmcblock
else
do_flash_mtd $bin $mtdname
fi
}
do_flash_ubi() {
local bin=$1
local mtdname=$2
local mtdpart
local primaryboot
mtdpart=$(grep "\"${mtdname}\"" /proc/mtd | awk -F: '{print $1}')
ubidetach -p /dev/${mtdpart}
# Fail safe upgrade
[ -f /proc/boot_info/$mtdname/upgradepartition ] && {
primaryboot=$(cat /proc/boot_info/$mtdname/primaryboot)
if [ $primaryboot -eq 0 ]; then
echo 1 > /proc/boot_info/$mtdname/primaryboot
else
echo 0 > /proc/boot_info/$mtdname/primaryboot
fi
mtdname=$(cat /proc/boot_info/$mtdname/upgradepartition)
}
mtdpart=$(grep "\"${mtdname}\"" /proc/mtd | awk -F: '{print $1}')
ubiformat /dev/${mtdpart} -y -f /tmp/${bin}.bin
}
do_flash_tz() {
local sec=$1
local mtdpart=$(grep "\"0:QSEE\"" /proc/mtd | awk -F: '{print $1}')
local emmcblock="$(find_mmc_part "0:QSEE")"
if [ -n "$mtdpart" -o -e "$emmcblock" ]; then
do_flash_failsafe_partition ${sec} "0:QSEE"
else
do_flash_failsafe_partition ${sec} "0:TZ"
fi
}
do_flash_ddr() {
local sec=$1
local mtdpart=$(grep "\"0:CDT\"" /proc/mtd | awk -F: '{print $1}')
local emmcblock="$(find_mmc_part "0:CDT")"
if [ -n "$mtdpart" -o -e "$emmcblock" ]; then
do_flash_failsafe_partition ${sec} "0:CDT"
else
do_flash_failsafe_partition ${sec} "0:DDRPARAMS"
fi
}
to_upper () {
echo $1 | awk '{print toupper($0)}'
}
flash_section() {
local sec=$1
local board=$(board_name)
case "${sec}" in
hlos*) switch_layout linux; do_flash_failsafe_partition ${sec} "0:HLOS";;
rootfs*) switch_layout linux; do_flash_failsafe_partition ${sec} "rootfs";;
fs*) switch_layout linux; do_flash_failsafe_partition ${sec} "rootfs";;
ubi*) switch_layout linux; do_flash_ubi ${sec} "rootfs";;
#sbl1*) switch_layout boot; do_flash_partition ${sec} "0:SBL1";;
#sbl2*) switch_layout boot; do_flash_failsafe_partition ${sec} "0:SBL2";;
#sbl3*) switch_layout boot; do_flash_failsafe_partition ${sec} "0:SBL3";;
#mibib*) switch_layout boot; do_flash_partition ${sec} "0:MIBIB";;
#dtb-$(to_upper $board)*) switch_layout boot; do_flash_partition ${sec} "0:DTB";;
u-boot*) switch_layout boot; do_flash_failsafe_partition ${sec} "0:APPSBL";;
#ddr-$(to_upper $board)*) switch_layout boot; do_flash_ddr ${sec};;
ddr-${board}-*) switch_layout boot; do_flash_failsafe_partition ${sec} "0:CDT";;
#ssd*) switch_layout boot; do_flash_partition ${sec} "0:SSD";;
tz*) switch_layout boot; do_flash_tz ${sec};;
#rpm*) switch_layout boot; do_flash_failsafe_partition ${sec} "0:RPM";;
*) echo "Section ${sec} ignored"; return 1;;
esac
echo "Flashed ${sec}"
}
erase_emmc_config() {
local emmcblock="$(find_mmc_part "rootfs_data")"
if [ -e "$emmcblock" ]; then
dd if=/dev/zero of=${emmcblock}
mkfs.ext4 "$emmcblock"
fi
}
platform_pre_upgrade() {
cp /sbin/upgraded /tmp
ubus call system nandupgrade "{\"path\": \"$1\" }"
}
platform_check_image_ipq() {
local board=$(board_name)
local mandatory_nand="ubi"
local mandatory_nor_emmc="hlos fs"
local mandatory_nor="hlos"
local mandatory_section_found=0
local optional="sbl2 u-boot ddr-${board} ssd tz rpm"
local ignored="mibib bootconfig sbl1"
image_is_FIT $1 || return 1
image_has_mandatory_section $1 ${mandatory_nand} && {\
mandatory_section_found=1
}
image_has_mandatory_section $1 ${mandatory_nor_emmc} && {\
mandatory_section_found=1
}
image_has_mandatory_section $1 ${mandatory_nor} && {\
mandatory_section_found=1
}
if [ $mandatory_section_found -eq 0 ]; then
echo "Error: mandatory section(s) missing from \"$1\". Abort..."
return 1
fi
for sec in ${optional}; do
image_contains $1 ${sec} || {\
echo "Warning: optional section \"${sec}\" missing from \"$1\". Continue..."
}
done
for sec in ${ignored}; do
image_contains $1 ${sec} && {\
echo "Warning: section \"${sec}\" will be ignored from \"$1\". Continue..."
}
done
image_demux $1 || {\
echo "Error: \"$1\" couldn't be extracted. Abort..."
return 1
}
[ -f /tmp/hlos_version ] && rm -f /tmp/*_version
dumpimage -c $1 2>/dev/null
return $?
}
platform_version_upgrade() {
local version_files="appsbl_version sbl_version tz_version hlos_version rpm_version"
local sys="/sys/devices/system/qfprom/qfprom0/"
local tmp="/tmp/"
for file in $version_files; do
[ -f "${tmp}${file}" ] && {
echo "Updating "${sys}${file}" with `cat "${tmp}${file}"`"
echo `cat "${tmp}${file}"` > "${sys}${file}"
rm -f "${tmp}${file}"
}
done
}
# The U-Boot loader of the OpenMesh devices requires image sizes and
# checksums to be provided in the U-Boot environment.
# The OpenMesh devices come with 2 main partitions - while one is active
# sysupgrade will flash the other. The boot order is changed to boot the
# newly flashed partition. If the new partition can't be booted due to
# upgrade failures the previously used partition is loaded.
platform_do_upgrade_ipq() {
local board=$(board_name)
# verify some things exist before erasing
if [ ! -e $1 ]; then
echo "Error: Can't find $1 after switching to ramfs, aborting upgrade!"
reboot
fi
for sec in $(print_sections $1); do
if [ ! -e /tmp/${sec}.bin ]; then
echo "Error: Cant' find ${sec} after switching to ramfs, aborting upgrade!"
reboot
fi
done
case "$board" in
teltonika,rutx)
for sec in $(print_sections $1); do
flash_section ${sec}
done
switch_layout linux
# update bootconfig to register that fw upgrade has been done
do_flash_bootconfig bootconfig "0:BOOTCONFIG"
do_flash_bootconfig bootconfig1 "0:BOOTCONFIG1"
platform_version_upgrade
erase_emmc_config
return 0;
;;
esac
echo "Upgrade failed!"
return 1;
}
platform_copy_config() {
local emmcblock="$(find_mmc_part "rootfs_data")"
mkdir -p /tmp/overlay
if [ -e "$emmcblock" ]; then
mount -t ext4 "$emmcblock" /tmp/overlay
cp /tmp/sysupgrade.tgz /tmp/overlay/
sync
umount /tmp/overlay
else
local mtdname=rootfs
local mtdpart
[ -f /proc/boot_info/$mtdname/upgradepartition ] && {
mtdname=$(cat /proc/boot_info/$mtdname/upgradepartition)
}
mtdpart=$(grep "\"${mtdname}\"" /proc/mtd | awk -F: '{print $1}')
ubiattach -p /dev/${mtdpart}
mount -t ubifs ubi0:rootfs_data /tmp/overlay
cp /tmp/sysupgrade.tgz /tmp/overlay/
sync
umount /tmp/overlay
fi
}

156
root/target/linux/ipq40xx/base-files/lib/upgrade/platform.sh
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@ -1,127 +1,45 @@
PART_NAME=firmware
REQUIRE_IMAGE_METADATA=1
RAMFS_COPY_BIN='fw_printenv fw_setenv'
RAMFS_COPY_DATA='/etc/fw_env.config /var/lock/fw_printenv.lock'
platform_check_image() {
case "$(board_name)" in
asus,rt-ac58u)
CI_UBIPART="UBI_DEV"
local ubidev=$(nand_find_ubi $CI_UBIPART)
local asus_root=$(nand_find_volume $ubidev jffs2)
[ -n "$asus_root" ] || return 0
cat << EOF
jffs2 partition is still present.
There's probably no space left
to install the filesystem.
You need to delete the jffs2 partition first:
# ubirmvol /dev/ubi0 --name=jffs2
Once this is done. Retry.
EOF
return 1
;;
esac
return 0;
}
askey_do_upgrade() {
local tar_file="$1"
local board_dir=$(tar tf $tar_file | grep -m 1 '^sysupgrade-.*/$')
board_dir=${board_dir%/}
tar Oxf $tar_file ${board_dir}/root | mtd write - rootfs
nand_do_upgrade "$1"
}
zyxel_do_upgrade() {
local tar_file="$1"
local board_dir=$(tar tf $tar_file | grep -m 1 '^sysupgrade-.*/$')
board_dir=${board_dir%/}
tar Oxf $tar_file ${board_dir}/kernel | mtd write - kernel
if [ -n "$UPGRADE_BACKUP" ]; then
tar Oxf $tar_file ${board_dir}/root | mtd -j "$UPGRADE_BACKUP" write - rootfs
else
tar Oxf $tar_file ${board_dir}/root | mtd write - rootfs
fi
platform_check_image_ipq "$1"
}
platform_do_upgrade() {
case "$(board_name)" in
8dev,jalapeno |\
aruba,ap-303 |\
aruba,ap-303h |\
aruba,ap-365 |\
avm,fritzbox-7530 |\
avm,fritzrepeater-1200 |\
avm,fritzrepeater-3000 |\
buffalo,wtr-m2133hp |\
cilab,meshpoint-one |\
engenius,eap2200 |\
mobipromo,cm520-79f |\
qxwlan,e2600ac-c2)
nand_do_upgrade "$1"
;;
alfa-network,ap120c-ac)
part="$(awk -F 'ubi.mtd=' '{printf $2}' /proc/cmdline | sed -e 's/ .*$//')"
if [ "$part" = "rootfs1" ]; then
fw_setenv active 2 || exit 1
CI_UBIPART="rootfs2"
else
fw_setenv active 1 || exit 1
CI_UBIPART="rootfs1"
fi
nand_do_upgrade "$1"
;;
asus,map-ac2200)
CI_KERNPART="linux"
nand_do_upgrade "$1"
;;
asus,rt-ac58u)
CI_UBIPART="UBI_DEV"
CI_KERNPART="linux"
nand_do_upgrade "$1"
;;
cellc,rtl30vw)
CI_UBIPART="ubifs"
askey_do_upgrade "$1"
;;
compex,wpj419|\
p2w,r619ac-128m|\
p2w,r619ac)
nand_do_upgrade "$1"
;;
linksys,ea6350v3 |\
linksys,ea8300)
platform_do_upgrade_linksys "$1"
;;
meraki,mr33)
CI_KERNPART="part.safe"
nand_do_upgrade "$1"
;;
openmesh,a42 |\
openmesh,a62)
PART_NAME="inactive"
platform_do_upgrade_openmesh "$1"
;;
teltonika,rutx)
CI_UBIPART="rootfs"
nand_do_upgrade "$1"
;;
zyxel,nbg6617)
zyxel_do_upgrade "$1"
;;
*)
default_do_upgrade "$1"
;;
esac
platform_do_upgrade_ipq "$1"
}
# added with io_expander validation
platform_check_hw_support() {
local metadata="/tmp/sysupgrade.meta"
local io_expander_file="/proc/device-tree/io_expander"
local found=0
[ -e "$metadata" ] || ( fwtool -q -i $metadata $1 ) && {
json_load_file "$metadata"
# previous devices were always supported
[ ! -e "$io_expander_file" ] && return 0
json_select hw_support
# io_expander type validation
local io_expander="$(cat $io_expander_file)"
# if support type is absent in metadata, we assume it's supported
if ( json_select io_expander 2> /dev/null ); then
json_select io_expander
json_get_values io_exp_values
for val in $io_exp_values; do
regex_value=$(echo "$io_expander" | grep -e "$val")
[ "$io_expander" = "$regex_value" ] && found=1
done
[ $found -eq 0 ] && return 1
json_select ..
else
# fail if not default/initial type
[ "$io_expander" != "stm32" ] && return 1
fi
# ...
}
return 0;
}

120
root/target/linux/ipq40xx/base-files/sbin/mctl Executable file
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#!/bin/sh
. /usr/share/libubox/jshn.sh
PS_ON=1
PS_OFF=2
MPS=0
MLBL="modem"
modem_reset() {
local label="$1"
[ -e "/sys/class/gpio/${label}_reset/value" ] || return
echo 1 > "/sys/class/gpio/${label}_reset/value"
sleep 1
echo 0 > "/sys/class/gpio/${label}_reset/value"
}
modem_off() {
local label="$1"
[ -e "/sys/class/gpio/${label}_reset/value" ] || return
echo 1 > "/sys/class/gpio/${label}_reset/value"
}
modem_power() {
local label="$1"
[ -e "/sys/class/gpio/${label}_power/value" ] || return
# simulate power press
echo 1 > "/sys/class/gpio/${label}_power/value"
sleep 1
echo 0 > "/sys/class/gpio/${label}_power/value"
}
modem_list() {
local list="modem"
local label
[ "$(modem_fetch_primary)" -eq 0 ] && {
echo "${list}"
return
}
for m in /sys/class/gpio/modem*_power; do
label="$(basename $m | awk -F_ '{print $1}')"
[ "${label}" != "modem" ] && list="${list},${label}"
done
echo "${list}"
}
modem_fetch_primary() {
local modem modems primary
json_init
json_load_file "/etc/board.json"
json_get_keys modems modems
json_select modems
for modem in $modems; do
json_select "$modem"
json_get_vars primary
[ -n "$primary" ] && {
echo 1
return
}
json_select ..
done
echo 0
}
modem_is_available() {
local label="$1"
[ -e "/sys/class/gpio/${label}_power/value" ]
}
usage() {
cat <<EOF
Usage $0 <option>
Control modem power state.
Options:
-p, --power-on power on modem
-s, --shutdown shutdown modem
-r, --reboot reboot modem
-m, --modem <label> use specified modem instead of default one
Available modem labels:
$(modem_list)
EOF
exit 1
}
while [ -n "$1" ]; do
case "$1" in
-p | --power-on) MPS="${PS_ON}";;
-s | --shutdown) MPS="${PS_OFF}";;
-r | --reboot) MPS="${PS_ON}";;
-m | --modem) MLBL="$2"; shift;;
-*) echo "Invalid option: $1"; usage;;
*) break;;
esac
shift
done
[ "${MPS}" -eq 0 ] && usage
modem_is_available "${MLBL}" || usage
case "${MPS}" in
"${PS_ON}") modem_reset "${MLBL}"; sleep 1; modem_power "${MLBL}";;
"${PS_OFF}") modem_off "${MLBL}";;
esac

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root/target/linux/ipq40xx/base-files/sbin/user_defaults Executable file
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#!/bin/sh
tar_file="/etc/default-config/config.tar.gz"
[ ! -f "$tar_file" ] && return 1
/usr/bin/ledman --clean
cp $tar_file /tmp/user_defaults.tgz
firstboot -y
[ -d /tmp/overlay ] || mkdir /tmp/overlay
mount -t ubifs ubi0:rootfs_data /tmp/overlay
cp /tmp/user_defaults.tgz /tmp/overlay/
sync
umount /tmp/overlay

BIN
root/target/linux/ipq40xx/base-files/usr/share/art/art_rutx.bin Normal file
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