/usr/share/tlp-pm/tlp-rf-func is in tlp 0.9-3.
This file is owned by root:root, with mode 0o755.
The actual contents of the file can be viewed below.
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# tlp - rf switch functions
#
# Copyright (c) 2016 Thomas Koch <linrunner at gmx.net>
# This software is licensed under the GPL v2 or later.
# ----------------------------------------------------------------------------
# Constants
readonly RFKILL="rfkill"
readonly RFKD="/dev/rfkill"
readonly ALLDEV="bluetooth wifi wwan"
# ----------------------------------------------------------------------------
# Functions
get_devc () { # get control device for radio type
# $1: rftype bluetooth/wifi/wwan
# retval $devc: sysdev,
# $rfkdev: 1/0=is/is not an rfkill device,
# $devon, $devoff: value to write directly to the sysdev
# to achieve the desired switch state
local i
check_sysfs "get_devc" "/sys/class/rfkill"
# preset retvals
devc=""
devs=254
rfkdev="1"
devon="1"
devoff="0"
case $1 in
wwan|bluetooth)
for i in /sys/class/rfkill/rfkill* ; do
if [ -f $i/type ] && [ "$(cat $i/type)" = "$1" ]; then
devc="$i/state"
echo_debug "rf" "get_devc($1) = $devc"
return 0
fi
done
;;
wifi)
for i in /sys/bus/pci/drivers/ipw2?00/*/rf_kill; do
if [ -f $i ]; then
devc="$i"
rfkdev="0"
devon="0"
devoff="1"
echo_debug "rf" "get_devc($1) = $devc"
return 0
fi
done
for i in /sys/class/rfkill/rfkill* ; do
if [ -f $i/type ] && [ "$(cat $i/type)" = "wlan" ]; then
devc="$i/state"
echo_debug "rf" "get_devc($1) = $devc"
return 0
fi
done
;;
*)
echo "Error: unknown device type \"$1\"" 1>&2
echo_debug "rf" "get_devc($1).unknown_type"
return 0
;;
esac
echo_debug "rf" "get_devc($1).not_present"
return 0
}
get_devs () { # get radio device state -- $1: rftype; retval $devs: 0=off/1=on
if [ -n "$devc" ]; then
devs=$(cat $devc)
[ "$rfkdev" = "0" ] && devs=$(($devs ^ $devoff))
fi
echo_debug "rf" "get_devs($1) = $devs"
return 0
}
err_no_root_priv () { # check root privilege
echo "Error: missing root privilege." 1>&2
echo_debug "rf" "$1.missing_root_privilege"
return 0
}
test_rfkill_perms () { # test if either root priv or rfkill device writable
test_root || [ -w $RFKD ]
}
check_nm () { # test if NetworkManager is running and nmcli is installed
cmd_exists $NMCLI
}
invoke_nmcli () { # call nmcli with radio option according to the program version
# $1: rftype, $2: on/off, $3: caller; rc: last nmcli rc
local rc
check_nm || return 0 # return if NetworkManager not running
$NMCLI nm $1 $2 > /dev/null 2>&1; rc=$?
echo_debug "rf" "invoke_nmcli($1, $2).nm: rc=$rc"
if [ $rc -eq 2 ]; then
# option "nm" is invalid for this NM version, try "radio" instead
$NMCLI radio $1 $2 > /dev/null 2>&1; rc=$?
echo_debug "rf" "invoke_nmcli($1, $2).radio: rc=$rc"
fi
return $rc
}
device_state () { # get radio type state -- $1: rftype; retval $devc, $devs: 0=off/1=on
echo_debug "rf" "device_state($1)"
get_devc $1
get_devs $1
}
device_switch () { # switch radio type state
# $1: rftype, $2: 1/on/0/off/toggle
# $3: lock id, $4: lock duration
# rc: 0=switched/1=invalid device or operation/
# 2=hard blocked/4=no change
# retval $devc, $devs: 0=off/1=on
local curst newst devn
echo_debug "rf" "device_switch($1, $2, $3, $4)"
get_devc $1
# quit if no device
if [ -z "$devc" ]; then
echo_debug "rf" "device_switch($1, $2).no_device: rc=1"
return 1
fi
# quit if invalid operation
if ! wordinlist $2 "on 1 off 0 toggle"; then
echo_debug "rf" "device_switch($1, $2).invalid_op: rc=1"
return 1
fi
# get current device state
get_devs $1
curst=$devs
# quit if device is hard blocked
if [ "$curst" = "2" ]; then
echo_debug "rf" "device_switch($1, $2).hard_blocked: rc=2"
return 2
fi
# determine desired device state
case $2 in
1|on) newst=1 ;;
0|off) newst=0 ;;
toggle) newst=$(($curst ^ 1)) ;;
esac
# wifi, wwan: before rfkill -- notify NM of desired state
if [ "$X_USE_NMCLI" = "1" ] && [ "$1" != "bluetooth" ]; then
case $newst in
1) invoke_nmcli $1 on ;;
0) invoke_nmcli $1 off ;;
esac
# record device state after nmcli
get_devs $1
# update current state
curst=$devs
fi
# compare current and desired device state
if [ "$curst" = "$newst" ]; then
# desired matches current state --> do nothing
echo_debug "rf" "device_switch($1, $2).desired_state"
else
# desired does not match current state --> do switch
# set timed lock if required
[ -n "$3" ] && [ -n "$4" ] && [ "$1" != "bluetooth" ] && \
set_timed_lock $3 $4
# determine value for direct write
case $newst in
1) devn=$devon ;;
0) devn=$devoff ;;
esac
# switch device state when either rfkill isn't disabled
# or it's a bluetooth device
if [ "$X_USE_RFKILL" != "0" ] || [ "$1" != "bluetooth" ]; then
if [ "$rfkdev" = "1" ] && cmd_exists $RFKILL ; then
if test_rfkill_perms ; then
# use rfkill
echo_debug "rf" "device_switch($1, $2).rfkill"
case $newst in
1) $RFKILL unblock $1 > /dev/null 2>&1 ;;
0) $RFKILL block $1 > /dev/null 2>&1 ;;
*) ;;
esac
# record device state after rfkill
get_devs $1
else
# missing permission to rfkill
err_no_root_priv "device_switch($1, $2).rfkill"
fi
else
# use direct write
if test_root ; then
echo_debug "rf" "device_switch($1, $2).devc"
echo -n $devn > $devc
# record device state after direct write
get_devs $1
else
err_no_root_priv "device_switch($1, $2).devc"
fi
fi
fi # rfkill not disabled or bluetooth
fi # states did not match
# wifi, wwan: after rfill -- notify NM of desired state
if [ "$X_USE_NMCLI" != "0" ] && [ "$X_USE_NMCLI" != "1" ] \
&& [ "$1" != "bluetooth" ]; then
case $newst in
1) invoke_nmcli $1 on ;;
0) invoke_nmcli $1 off ;;
esac
# record final device state
get_devs $1
fi
# compare old and new device state
if [ "$curst" = "$devs" ]; then
# state did not change
echo_debug "rf" "device_switch($1, $2).no_change: rc=4"
return 4
else
echo_debug "rf" "device_switch($1, $2).ok: rc=0"
return 0
fi
}
echo_device_state () { # print radio type state -- $1: rftype, $2: state
case $1 in
bluetooth)
devstr="bluetooth"
;;
wifi)
devstr="wifi "
;;
wwan)
devstr="wwan "
;;
*)
devstr=$1
;;
esac
case $2 in
0)
echo "$devstr = off (software)"
;;
1)
echo "$devstr = on"
;;
2)
echo "$devstr = off (hardware)"
;;
254)
echo "$devstr = none (no device)"
;;
*)
echo "$devstr = unknown state \"$2\""
esac
return 0
}
save_device_states () { # save radio states -- $1: list of rftypes
local dev
local devlist="${1:-$ALLDEV}" # when arg empty -> use all
echo_debug "rf" "save_device_states($devlist)"
# create empty state file
mkdir -p $STATEDIR 2> /dev/null 1>&2
: > $RFSTATEFILE
# iterate over all possible devices -> save state in file
for dev in $devlist; do
device_state $dev
echo "$dev $devs" >> $RFSTATEFILE
done
return 0
}
restore_device_states () { # restore radio type states
local sline
echo_debug "rf" "restore_device_states"
if [ -f $RFSTATEFILE ]; then
# read state file
while read sline; do
set -- $sline # read dev, state into $1, $2
device_switch $1 $2
done < $RFSTATEFILE
return 0
else
return 1
fi
}
set_radio_device_states () { # set/initialize all radio states
# $1: start/stop/1/0/radiosw
# called from init scripts or upon change of power source
local dev devs2disable devs2enable restore
local quiet=0
# save/restore mode is disabled by default
if [ "$1" != "radiosw" ]; then
restore=${RESTORE_DEVICE_STATE_ON_STARTUP:-0}
else
restore=0
fi
if [ "$restore" = "1" ]; then
# "save/restore" mode
echo_debug "rf" "set_radio_device_states($1).restore"
case $1 in
start)
restore_device_states
if [ $? = 0 ]; then
echo "Radio device states restored."
else
echo "No saved radio device states found."
fi
;;
stop)
save_device_states
echo "Radio device states saved."
;;
esac
else
# "disable/enable on startup/shutdown or bat/ac" or "radiosw" mode
case $1 in
start) # system startup
devs2disable="$DEVICES_TO_DISABLE_ON_STARTUP"
devs2enable="$DEVICES_TO_ENABLE_ON_STARTUP"
;;
stop) # system shutdown
devs2disable="$DEVICES_TO_DISABLE_ON_SHUTDOWN"
devs2enable="$DEVICES_TO_ENABLE_ON_SHUTDOWN"
# NM workaround: if
# 1. disable wifi is configured somehow, and
# 2. wifi is not explicitly configured for shutdown
# then re-enable wifi on shutdown to prepare for startup
if wordinlist "wifi" "$DEVICES_TO_DISABLE_ON_BAT
$DEVICES_TO_DISABLE_ON_BAT_NOT_IN_USE
$DEVICES_TO_DISABLE_ON_LAN_CONNECT
$DEVICES_TO_DISABLE_ON_WIFI_CONNECT
$DEVICES_TO_DISABLE_ON_WWAN_CONNECT" && \
! wordinlist "wifi" "$devs2disable $devs2enable"; then
devs2enable="wifi $devs2enable"
fi
;;
1) # battery power --> build disable list
quiet=1 # do not display progress
devs2enable=""
devs2disable="${DEVICES_TO_DISABLE_ON_BAT:-}"
# check configured list for connected devices
for dev in ${DEVICES_TO_DISABLE_ON_BAT_NOT_IN_USE:-}; do
case $dev in
bluetooth) any_bluetooth_in_use ;;
wifi) any_wifi_in_use ;;
wwan) any_wwan_in_use ;;
esac
# if device is not connected and not in list yet --> add to disable list
[ $? = 0 ] || wordinlist $dev "$devs2disable" || devs2disable="$dev $devs2disable"
done
devs2disable="${devs2disable# }"
;;
0) # AC power --> build enable list
quiet=1 # do not display progress
devs2enable="${DEVICES_TO_ENABLE_ON_AC:-}"
devs2disable=""
;;
radiosw)
devs2disable=""
devs2enable="$DEVICES_TO_ENABLE_ON_RADIOSW"
;;
esac
echo_debug "rf" "set_radio_device_states($1): enable=$devs2enable disable=$devs2disable"
# Disable configured radios
if [ -n "$devs2disable" ]; then
[ "$quiet" = "1" ] || echo -n "Disabling radios:"
for dev in $devs2disable; do
[ "$quiet" = "1" ] || echo -n " $dev"
device_switch $dev off
done
[ "$quiet" = "1" ] || echo "."
fi
# Enable configured radios
if [ -n "$devs2enable" ]; then
if [ "$1" = "radiosw" ]; then
# radiosw mode: disable radios not listed
for dev in bluetooth wifi wwan; do
if ! wordinlist "$dev" "$devs2enable"; then
device_switch $dev off
fi
done
else
# start mode: enable listed radios
[ "$quiet" = "1" ] || echo -n "Enabling radios:"
for dev in $devs2enable; do
[ "$quiet" = "1" ] || echo -n " $dev"
device_switch $dev on
done
[ "$quiet" = "1" ] || echo "."
fi
fi
# clean up: discard state file
rm -f $RFSTATEFILE 2> /dev/null
fi
return 0
}
|