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Add a directory by kernel instead of a common root, add qnap-301w and rpi4 kernel 6.1 suppport

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This commit is contained in:
Ycarus (Yannick Chabanois) 2023-04-22 08:07:24 +02:00
parent e910436a7a
commit 46837ec4c0
9459 changed files with 362648 additions and 116345 deletions
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14
5.4/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
5.4/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

47
5.4/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
}
#logger -t "board-track" "ls -d /sys/bus/usb/devices/$id/${id}*/tty?*"
ttys=$(ls -d /sys/bus/usb/devices/$id/${id}*/tty?*)
[ -n "$ttys" ] || { #FAILED TO FIND MODEM
logger -t "board-track" "modem $id not detected"
for m in /sys/class/gpio/modem*_power; do
label="$(basename $m | awk -F_ '{print $1}')"
mctl -s -m ${label}
sleep 1
mctl -p -m ${label}
done
sleep 5
ip link set up dev wwan0 2>&1 >/dev/null
ip link set up dev wwan1 2>&1 >/dev/null
json_select ..
return 1
}
[ -n "$(ip link show dev wwan0 | grep DOWN)" ] && ip link set up dev wwan0 2>&1 >/dev/null
[ -n "$(ip link show dev wwan1 | grep DOWN)" ] && ip link set up dev wwan1 2>&1 >/dev/null
#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
5.4/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:-"192.168.100.1"}
;;
*) 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.device='$ifname'
# set network.${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=${param:0:6}
uci -q batch <<-EOF
delete system.@system[0]
set system.system='system'
set system.@system[-1].hostname='OpenMPTCProuter'
set system.@system[-1].timezone='UTC'
set system.@system[-1].ttylogin='0'
set system.@system[-1].log_size='128'
set system.@system[-1].urandom_seed='0'
delete system.ntp
set system.ntp='timeserver'
set system.ntp.enabled='0'
set system.ntp.enable_server='0'
add_list system.ntp.server='0.pool.ntp.org'
add_list system.ntp.server='1.pool.ntp.org'
add_list system.ntp.server='2.pool.ntp.org'
add_list system.ntp.server='3.pool.ntp.org'
delete system.debug
set system.debug='debug'
set system.debug.sms_utils_debug_level='4'
EOF
if json_is_a system object; then
json_select system
local hostname
#if json_get_var hostname hostname; then
# uci -q set "system.@system[-1].hostname=$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
5.4/target/linux/ipq40xx/base-files/bin/ipcalc.sh Executable file
View file

@ -0,0 +1,71 @@
#!/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