#!/bin/bash # # pwmconfig # Tests the pwm outputs of sensors and configures fancontrol # Supported Linux kernel versions: 2.6.5 and later # # Warning!!! This program will stop your fans, one at a time, # for approximately 5 seconds each!!! # This may cause your processor temperature to rise!!! # Verify that all fans are running at normal speed after this # program has exited!!! # # Copyright (C) 2007-2013 Jean Delvare # # This program is free software; you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation; either version 2 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program; if not, write to the Free Software # Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, # MA 02110-1301 USA. # # LM_VERSION='3.6.0+git' PIDFILE="/var/run/fancontrol.pid" if [ -f "$PIDFILE" ] then echo "File $PIDFILE exists. This typically means that the" echo "fancontrol deamon is running. You should stop it before running pwmconfig." echo "If you are certain that fancontrol is not running, then you can delete" echo "$PIDFILE manually." exit 1 fi if [ "$(id -u)" != "0" ] then echo "You need to be root to run this script." exit 1 fi echo "# pwmconfig version $LM_VERSION" echo 'This program will search your sensors for pulse width modulation (pwm)' echo 'controls, and test each one to see if it controls a fan on' echo 'your motherboard. Note that many motherboards do not have pwm' echo 'circuitry installed, even if your sensor chip supports pwm.' echo echo 'We will attempt to briefly stop each fan using the pwm controls.' echo 'The program will attempt to restore each fan to full speed' echo 'after testing. However, it is ** very important ** that you' echo 'physically verify that the fans have been to full speed' echo 'after the program has completed.' echo DELAY=5 # 3 seconds delay is too short for large fans, thus I increased it to 5 MAX=255 if [ -d "/sys/class/hwmon" ] then SYSFS=2 DIR="/sys/class/hwmon" PREFIX='hwmon*' elif [ -d "/sys/bus/i2c/devices" ] then SYSFS=1 DIR="/sys/bus/i2c/devices" PREFIX='*-*' else echo $0: 'No sensors found! (modprobe sensor modules?)' exit 1 fi cd $DIR DEVICES=$(echo $PREFIX) if [ "$PREFIX" = "$DEVICES" ] then echo $0: 'No sensors found! (modprobe sensor modules?)' exit 1 fi # We may need to adjust the device path if [ "$SYSFS" = "2" ] then OLD_DEVICES="$DEVICES" DEVICES="" for device in $OLD_DEVICES do if [ ! -r "$device/name" ] then device="$device/device" fi DEVICES="$DEVICES $device" done fi for device in $DEVICES do # Find available fan control outputs MATCH=$device/'pwm[1-9]' device_pwm=$(echo $MATCH) if [ "$SYSFS" = "1" -a "$MATCH" = "$device_pwm" ] then # Deprecated naming scheme (used in kernels 2.6.5 to 2.6.9) MATCH=$device/'fan[1-9]_pwm' device_pwm=$(echo $MATCH) fi if [ "$MATCH" != "$device_pwm" ] then PWM="$PWM $device_pwm" fi # Find available fan monitoring inputs MATCH=$device/'fan[1-9]_input' device_fan=$(echo $MATCH) if [ "$MATCH" != "$device_fan" ] then FAN="$FAN $device_fan" fi done if [ -z "$PWM" ] then echo $0: 'There are no pwm-capable sensor modules installed' exit 1 fi if [ -z "$FAN" ] then echo $0: 'There are no fan-capable sensor modules installed' exit 1 fi # $1 = padding function print_devices() { local name device for device in $DEVICES do name=$(cat $device/name 2> /dev/null) [ -z "$name" ] && name="unknown (no name attribute)" echo "$1$device is $name" done } # $1 = pwm file name function is_pwm_auto() { local ENABLE=${1}_enable if [ -f $ENABLE ] then if [ "$(cat $ENABLE)" -gt 1 ] then return 0 fi fi return 1 } # $1 = pwm file name function pwmdisable() { local ENABLE=${1}_enable # No enable file? Just set to max if [ ! -f $ENABLE ] then echo $MAX > $1 return 0 fi # Try pwmN_enable=0 echo 0 2>/dev/null > $ENABLE if [ "$(cat $ENABLE)" -eq 0 ] then # Success return 0 fi # It didn't work, try pwmN_enable=1 pwmN=255 echo 1 2>/dev/null > $ENABLE if [ "$(cat $ENABLE)" -ne 1 ] then echo "$ENABLE stuck to $(cat $ENABLE)" >&2 return 1 fi echo $MAX > $1 if [ "$(cat $1)" -ge 190 ] then # Success return 0 fi # Nothing worked echo "$1 stuck to $(cat $1)" >&2 return 1 } # $1 = pwm file name function pwmenable() { local ENABLE=${1}_enable if [ -w $ENABLE ] then echo 1 2>/dev/null > $ENABLE if [ $? -ne 0 ] then return 1 fi fi echo $MAX > $1 } # $1 = pwm file name; $2 = pwm value 0-255 function pwmset() { echo $2 > $1 } echo 'Found the following devices:' print_devices " " echo echo 'Found the following PWM controls:' for i in $PWM do P=$(cat $i) echo " $i current value: $P" if [ -w $i ] then # First check if PWM output is in automatic mode if is_pwm_auto $i then echo "$i is currently setup for automatic speed control." echo 'In general, automatic mode is preferred over manual mode, as' echo 'it is more efficient and it reacts faster. Are you sure that' echo -n 'you want to setup this output for manual control? (n) ' read X if [ "$X" = "" -o "$X" != "y" -a "$X" != "Y" ] then continue fi fi pwmdisable $i if [ $? -ne 0 ] then echo "Manual control mode not supported, skipping $i." elif [ "$GOODPWM" = "" ] then GOODPWM=$i else GOODPWM="$GOODPWM $i" fi else echo "Can't write to $i, skipping." fi done if [ "$GOODPWM" = "" ] then echo 'There are no usable PWM outputs.' exit 1 fi echo echo "Giving the fans some time to reach full speed..." sleep $DELAY echo 'Found the following fan sensors:' for i in $FAN do S=$(cat $i) if [ "$S" = "0" -o "$S" = "-1" ] then echo " $i current speed: 0 ... skipping!" else echo " $i current speed: $S RPM" if [ "$GOODFAN" = "" ] then GOODFAN=$i SPEEDS=$S else GOODFAN="$GOODFAN $i" SPEEDS="$SPEEDS $S" fi fi done echo if [ "$GOODFAN" = "" ] then echo 'There are no working fan sensors, all readings are 0.' echo 'Make sure you have a 3-wire fan connected.' echo 'You may also need to increase the fan divisors.' echo 'See doc/fan-divisors for more information.' exit 1 fi echo 'Warning!!! This program will stop your fans, one at a time,' echo "for approximately $DELAY seconds each!!!" echo 'This may cause your processor temperature to rise!!!' echo 'If you do not want to do this hit control-C now!!!' echo -n 'Hit return to continue: ' read X echo PLOTTER=gnuplot STEP=15 PDELAY=2 # Use a smaller step for low PWM values as this is typically where the # more important fan speed changes are happening. STEP2=2 STEP2_BELOW=31 function pwmdetail() { local P=$1 F=$2 local X PLOT= local TMP1 TMP2 local threshold=100000 pwm S type $PLOTTER > /dev/null 2>&1 if [ $? -eq 0 ] then echo -n "Would you like to generate a graphical plot using $PLOTTER (y)? " read X if [ "$X" = "y" -o "$X" = "Y" -o "$X" = "" ] then PLOT=y fi else if [ -n "$DISPLAY" ] then echo "Note: If you had $PLOTTER installed, I could generate a graphical plot." fi fi if [ "$PLOT" = "y" ] then TMP1=$(mktemp -t pwmtest1.XXXXXXXXXX) || { echo "$0: Cannot create temporary file" >&2; exit 1; } TMP2=$(mktemp -t pwmtest2.XXXXXXXXXX) || { rm -f $TMP1 ; echo "$0: Cannot create temporary file" >&2; exit 1; } echo "set xlabel \"PWM: $P\"" > $TMP1 echo "set ylabel \"FAN: $F (RPM)\"" >> $TMP1 echo 'set nokey' >> $TMP1 echo 'set xrange [0:255]' >> $TMP1 echo "plot \"$TMP2\" with lines" >> $TMP1 echo 'pause -1 " Hit return to continue..."' >> $TMP1 > $TMP2 fi let pwm=$MAX pwmenable $P while [ $pwm -ge 0 ] do pwmset $P $pwm sleep $PDELAY if [ $? -ne 0 ] then pwmdisable $P echo '^C received, aborting...' rm -f $TMP1 $TMP2 exit 1 fi S=$(cat $F) # Fan speed should never increase significantly if [ $S -gt $threshold ] then echo " PWM $pwm FAN $S (probably incorrect)" else echo " PWM $pwm FAN $S" let threshold=S*6/5 fi if [ "$PLOT" = "y" ] then echo "$pwm $S" >> $TMP2 fi if [ "$S" = "0" -o "$S" = "-1" ] then pwmdisable $P echo " Fan Stopped at PWM = $pwm" if [ $pwm -eq $MAX ] then echo " This fan appears to stop when the PWM is enabled;" echo " perhaps the fan input shares a pin with the PWM output" echo " on the sensor chip." echo " You cannot control this fan with this PWM output." rm -f $TMP1 $TMP2 echo return 0 fi break fi if [ $pwm -lt $STEP2_BELOW ] then let pwm=$pwm-$STEP2 else let pwm=$pwm-$STEP fi done pwmdisable $P if [ "$PLOT" = "y" ] then $PLOTTER $TMP1 rm -f $TMP1 $TMP2 fi echo } for i in $GOODPWM do echo Testing pwm control $i ... pwmenable $i if [ $? -ne 0 ] then echo "Manual control mode not supported, skipping." continue fi pwmset $i 0 sleep $DELAY if [ $? -ne 0 ] then pwmdisable $i echo '^C received, restoring PWM and aborting...' exit 1 fi # Sample all current fan speeds at once, so that we can quickly # disable PWM and return all fans to full speed CURRENT_SPEEDS="$(cat $GOODFAN)" pwmdisable $i let pwmactivecount=0 let count=1 S_MIN= for j in $GOODFAN do OS=$(echo $SPEEDS | cut -d' ' -f$count) S=$(echo $CURRENT_SPEEDS | cut -d' ' -f$count) echo " $j ... speed was $OS now $S" let threshold=3*$OS/4 if [ $S -lt $threshold ] then echo " It appears that fan $j" echo " is controlled by pwm $i" # # a PWM can control more than one fan.... # if [ $pwmactivecount -eq 0 ] then let pwmactivecount=1 pwmactive="$i ${pwmactive}" fanactive="$j ${fanactive}" # Give all correlated fans time to return to full speed sleep $DELAY if [ $? -ne 0 ] then echo '^C received, aborting...' exit 1 fi else fanactive="$j+${fanactive}" fi # Keep track of the slowest fan controlled by one PWM if [ -z "$S_MIN" ] || [ $S -lt $S_MIN ] then S_MIN=$S fi S=$(cat $j) if [ $S -lt $threshold ] then echo " Fan $j has not returned to speed, please investigate!" else echo -n "Would you like to generate a detailed correlation (y)? " read X if [ "$X" = "y" -o "$X" = "Y" -o "$X" = "" ] then pwmdetail $i $j fi fi else echo " no correlation" fi let count=count+1 done echo if [ "$pwmactivecount" = "0" ] then echo "No correlations were detected." echo "There is either no fan connected to the output of $i," echo "or the connected fan has no rpm-signal connected to one of" echo "the tested fan sensors. (Note: not all motherboards have" echo "the pwm outputs connected to the fan connectors," echo "check out the hardware database on http://www.almico.com/forumindex.php)" echo echo -n "Did you see/hear a fan stopping during the above test (n)? " read X if [ "$X" = "y" -o "$X" = "Y" ] then pwmactive="$i ${pwmactive}" fanactive_min="0 $fanactive_min" fi echo else fanactive_min="$S_MIN $fanactive_min" fi done echo 'Testing is complete.' echo 'Please verify that all fans have returned to their normal speed.' echo echo 'The fancontrol script can automatically respond to temperature changes' echo 'of your system by changing fanspeeds.' echo -n 'Do you want to set up its configuration file now (y)? ' read X if [ "$X" = "n" -o "$X" = "N" ] then exit fi for device in $DEVICES do # Find available temperature monitoring inputs MATCH=$device/'temp[1-9]_input' device_temp=$(echo $MATCH) if [ "$MATCH" != "$device_temp" ] then TEMPS="$TEMPS $device_temp" fi done if [ -z "$TEMPS" ] then echo $0: 'There are no temperature-capable sensor modules installed' exit 1 fi function DevicePath() { if [ -h "$1/device" ] then readlink -f "$1/device" | sed -e 's/^\/sys\///' fi } function DeviceName() { if [ -r "$1/name" ] then cat "$1/name" | sed -e 's/[[:space:]=]/_/g' elif [ -r "$1/device/name" ] then cat "$1/device/name" | sed -e 's/[[:space:]=]/_/g' fi } function ValidateDevices() { local OLD_DEVPATH="$1" OLD_DEVNAME="$2" outdated=0 local entry device name path for entry in $OLD_DEVPATH do device=$(echo "$entry" | sed -e 's/=[^=]*$//') path=$(echo "$entry" | sed -e 's/^[^=]*=//') if [ "$(DevicePath "$device")" != "$path" ] then echo "Device path of $device has changed" outdated=1 fi done for entry in $OLD_DEVNAME do device=$(echo "$entry" | sed -e 's/=[^=]*$//') name=$(echo "$entry" | sed -e 's/^[^=]*=//') if [ "$(DeviceName "$device")" != "$name" ] then echo "Device name of $device has changed" outdated=1 fi done return $outdated } function AskPath() { echo -n 'What should be the path to your fancontrol config file (/etc/fancontrol)? ' read FCCONFIG if [ "$FCCONFIG" = "" ] then FCCONFIG="/etc/fancontrol" fi } AskPath function ClearConfig() { FCTEMPS="" FCFANS="" MINTEMP="" MAXTEMP="" MINSTART="" MINSTOP="" MINPWM="" MAXPWM="" } function LoadConfig() { local OLD_DEVPATH OLD_DEVNAME # Nothing to do if [ ! -f "$1" ] then ClearConfig return 0 fi echo "Loading configuration from $1 ..." INTERVAL=$(egrep '^INTERVAL=.*$' $1 | sed -e 's/INTERVAL= *//g') OLD_DEVPATH=$(egrep '^DEVPATH=.*$' $1 | sed -e 's/DEVPATH= *//g') OLD_DEVNAME=$(egrep '^DEVNAME=.*$' $1 | sed -e 's/DEVNAME= *//g') FCTEMPS=$(egrep '^FCTEMPS=.*$' $1 | sed -e 's/FCTEMPS= *//g') FCFANS=$(egrep '^FCFANS=.*$' $1 | sed -e 's/FCFANS= *//g') MINTEMP=$(egrep '^MINTEMP=.*$' $1 | sed -e 's/MINTEMP= *//g') MAXTEMP=$(egrep '^MAXTEMP=.*$' $1 | sed -e 's/MAXTEMP= *//g') MINSTART=$(egrep '^MINSTART=.*$' $1 | sed -e 's/MINSTART= *//g') MINSTOP=$(egrep '^MINSTOP=.*$' $1 | sed -e 's/MINSTOP= *//g') MINPWM=$(egrep '^MINPWM=.*$' $1 | sed -e 's/MINPWM= *//g') MAXPWM=$(egrep '^MAXPWM=.*$' $1 | sed -e 's/MAXPWM= *//g') # Check for configuration change if ! ValidateDevices "$OLD_DEVPATH" "$OLD_DEVNAME" then echo "Configuration appears to be outdated, discarded" ClearConfig return 0 fi } LoadConfig $FCCONFIG # $1 = pwm value below which the fan is stopped function TestMinStart() { local fanok FANTEST echo echo 'Now we increase the PWM value in 10-unit-steps.' echo 'Let the fan stop completely, then press return until the' echo "fan starts spinning. Then enter 'y'." echo 'We will use this value +20 as the starting speed.' let fanok=0 let fanval="$1" pwmenable $pwms until [ "$fanok" = "1" ] do if [ $fanval -gt 240 ] ; then let fanval=$MAX ; let fanok=1 ; fi echo -n "Setting $pwms to $fanval..." pwmset $pwms $fanval read FANTEST if [ "$FANTEST" != "" ] ; then let fanok=1 ; fi let fanval=fanval+10 done pwmdisable $pwms let fanval=fanval+20 if [ $fanval -gt 240 ] ; then let fanval=$MAX ; fi echo "OK, using $fanval" } # $1 = fan input to read the fan speed from function TestMinStop() { local faninput=$1 local threshold=100000 local fanspeed echo echo 'Now we decrease the PWM value to figure out the lowest usable value.' echo 'We will use a slightly greater value as the minimum speed.' let fanval=$MAX pwmenable $pwms while [ $fanval -ge 0 ] do pwmset $pwms $fanval sleep $PDELAY fanspeed=$(cat $faninput) if [ $fanspeed -gt $threshold ] then echo " PWM $fanval -> $fanspeed RPM (probably incorrect)" break else echo " PWM $fanval -> $fanspeed RPM" if [ $fanspeed = "0" -o $fanspeed = "-1" ] then break fi let threshold=fanspeed*6/5 fi if [ $fanval -lt $STEP2_BELOW ] then let fanval=$fanval-$STEP2 else let fanval=$fanval-$STEP fi done pwmdisable $pwms if [ $fanval -lt $STEP2_BELOW ] then let 'fanval=fanval+2*STEP2' else let 'fanval=fanval+STEP' fi echo "OK, using $fanval" } # Remember the path and name of each device with at least one # reference (pwm, temp or fan) in the configuration file. # This function sets globals DEVPATH and DEVNAME as a side effect. function RememberDevices() { local used entry device name path tempfandev pwmdev DEVPATH="" DEVNAME="" for device in $DEVICES do device=$(echo "$device" | sed -e 's/\/.*$//') used=0 for entry in $1 $2 do pwmdev=$(echo "$entry" | sed -e 's/\/.*$//') tempfandev=$(echo "$entry" | sed -e 's/^[^=]*=//' -e 's/\/.*$//') if [ "$device" = "$pwmdev" -o "$device" = "$tempfandev" ] then used=1 fi done if [ "$used" -eq 0 ] then continue fi # Record the device path and name. This lets the fancontrol # script check that they didn't change. If they did, then the # configuration file can no longer be trusted. path=$(DevicePath "$device") if [ -z "$DEVPATH" ] then DEVPATH="$device=$path" else DEVPATH="$DEVPATH $device=$path" fi name=$(DeviceName "$device") if [ -z "$DEVNAME" ] then DEVNAME="$device=$name" else DEVNAME="$DEVNAME $device=$name" fi done } function SaveConfig() { local tmpfile RememberDevices "$FCTEMPS" "$FCFANS" echo echo "Saving configuration to $FCCONFIG..." tmpfile=$(mktemp -t pwmcfg.XXXXXXXXXX) || { echo "$0: Cannot create temporary file" >&2; exit 1; } trap " [ -f \"$tmpfile\" ] && /bin/rm -f -- \"$tmpfile\"" 0 1 2 3 13 15 echo "# Configuration file generated by pwmconfig, changes will be lost" >$tmpfile echo "INTERVAL=$INTERVAL" >>$tmpfile echo "DEVPATH=$DEVPATH" >>$tmpfile echo "DEVNAME=$DEVNAME" >>$tmpfile echo "FCTEMPS=$FCTEMPS" >>$tmpfile echo "FCFANS=$FCFANS" >>$tmpfile echo "MINTEMP=$MINTEMP" >>$tmpfile echo "MAXTEMP=$MAXTEMP" >>$tmpfile echo "MINSTART=$MINSTART" >>$tmpfile echo "MINSTOP=$MINSTOP" >>$tmpfile [ -n "$MINPWM" ] && echo "MINPWM=$MINPWM" >>$tmpfile [ -n "$MAXPWM" ] && echo "MAXPWM=$MAXPWM" >>$tmpfile mv $tmpfile $FCCONFIG chmod +r $FCCONFIG #check if file was written correctly echo 'Configuration saved' } INTERVAL=10 PS3='select (1-n): ' DEFMINTEMP=20 DEFMAXTEMP=60 DEFMINSTART=150 DEFMINSTOP=100 function filter_cfgvar() { echo "$1" | sed -e 's/ /\n/g' \ | egrep "$2" \ | sed -e 's/.*=//g' } # "select" won't repeat the list of options, so we enclose it in a # never-ending loop so that it starts over again with each iteration. # I admit it's not exactly nice, but I do not have a better idea to # keep usability at an acceptable level. while [ 1 ] ; do echo echo 'Select fan output to configure, or other action:' select pwms in $pwmactive "Change INTERVAL" "Just quit" "Save and quit" "Show configuration"; do case $pwms in "Change INTERVAL") echo echo "Current interval is $INTERVAL seconds." echo -n "Enter the interval at which fancontrol should update PWM values (in s): " read INTERVAL #check user input here break ;; "Just quit") exit ;; "Save and quit") SaveConfig exit ;; "Show configuration") echo echo "Common Settings:" echo "INTERVAL=$INTERVAL" for pwmo in $pwmactive do echo echo "Settings of ${pwmo}:" echo " Depends on $(filter_cfgvar "$FCTEMPS" "$pwmo")" echo " Controls $(filter_cfgvar "$FCFANS" "$pwmo")" echo " MINTEMP=$(filter_cfgvar "$MINTEMP" $pwmo)" echo " MAXTEMP=$(filter_cfgvar "$MAXTEMP" "$pwmo")" echo " MINSTART=$(filter_cfgvar "$MINSTART" "$pwmo")" echo " MINSTOP=$(filter_cfgvar "$MINSTOP" "$pwmo")" XMINP=$(filter_cfgvar "$MINPWM" "$pwmo") [ -n "$XMINP" ] && echo " MINPWM=$XMINP" XMAXP=$(filter_cfgvar "$MAXPWM" "$pwmo") [ -n "$XMAXP" ] && echo " MAXPWM=$XMAXP" done echo break ;; "$(echo ${pwmactive} |sed -e 's/ /\n/g' | egrep "${pwms}")" ) pwmsed=$(echo ${pwms} | sed -e 's/\//\\\//g') #escape / for sed echo echo 'Devices:' print_devices "" echo echo 'Current temperature readings are as follows:' for j in $TEMPS do S=$(cat $j) let S="$S / 1000" echo "$j $S" done FAN=$(echo $fanactive|cut -d' ' -f$REPLY) FAN_MIN=$(echo $fanactive_min|cut -d' ' -f$REPLY) FCFANS="$(echo $FCFANS | sed -e "s/${pwmsed}[^ ]* *//g") ${pwms}=$FAN" echo echo "Select a temperature sensor as source for ${pwms}:" select tempss in $TEMPS "None (Do not affect this PWM output)"; do if [ "$tempss" = "None (Do not affect this PWM output)" ] then break; else if [ "$FCTEMPS" = "" ] then FCTEMPS="${pwms}=${tempss}" else FCTEMPS="$(echo $FCTEMPS | sed -e "s/${pwmsed}[^ ]* *//g") ${pwms}=${tempss}" fi fi echo echo 'Enter the low temperature (degree C)' echo -n "below which the fan should spin at minimum speed ($DEFMINTEMP): " read XMT if [ "$XMT" = "" ] then XMT=$DEFMINTEMP fi if [ "$MINTEMP" = "" ] then MINTEMP="${pwms}=${XMT}" else MINTEMP="$(echo $MINTEMP | sed -e "s/${pwmsed}[^ ]* *//g") ${pwms}=${XMT}" fi echo echo 'Enter the high temperature (degree C)' echo -n "over which the fan should spin at maximum speed ($DEFMAXTEMP): " read XMT if [ "$XMT" = "" ] then XMT=$DEFMAXTEMP fi if [ "$MAXTEMP" = "" ] then MAXTEMP="${pwms}=${XMT}" else MAXTEMP="$(echo $MAXTEMP | sed -e "s/${pwmsed}[^ ]* *//g") ${pwms}=${XMT}" fi if [ $FAN_MIN -eq 0 ] then echo echo "Enter the minimum PWM value (0-$MAX)" echo -n "at which the fan STOPS spinning (press t to test) ($DEFMINSTOP): " read XMSTOP if [ "$XMSTOP" = "" ] then XMSTOP=$DEFMINSTOP fi if [ "$XMSTOP" = "t" -o "$XMSTOP" = "T" ] then TestMinStop $FAN XMSTOP=$fanval fi else XMSTOP=0 fi if [ "$MINSTOP" = "" ] then MINSTOP="${pwms}=${XMSTOP}" else MINSTOP="$(echo $MINSTOP | sed -e "s/${pwmsed}[^ ]* *//g") ${pwms}=${XMSTOP}" fi if [ $FAN_MIN -eq 0 ] then echo echo "Enter the minimum PWM value ($XMSTOP-$MAX)" echo -n "at which the fan STARTS spinning (press t to test) ($DEFMINSTART): " read XMSTART if [ "$XMSTART" = "" ] then XMSTART=$DEFMINSTART fi if [ "$XMSTART" = "t" -o "$XMSTART" = "T" ] then TestMinStart $XMSTOP XMSTART=$fanval fi else XMSTART=$DEFMINSTART fi if [ "$MINSTART" = "" ] then MINSTART="${pwms}=${XMSTART}" else MINSTART="$(echo $MINSTART | sed -e "s/${pwmsed}[^ ]* *//g") ${pwms}=${XMSTART}" fi if [ $XMSTOP -gt 0 ] then echo echo "Enter the PWM value (0-$XMSTOP) to use when the temperature" echo -n "is below the low temperature limit (0): " read XMINP else XMINP="" fi if [ -n "$XMINP" ] then if [ "$MINPWM" = "" ] then MINPWM="${pwms}=${XMINP}" else MINPWM="$(echo $MINPWM | sed -e "s/${pwmsed}[^ ]* *//g") ${pwms}=${XMINP}" fi fi echo echo "Enter the PWM value ($XMSTOP-$MAX) to use when the temperature" echo -n "is over the high temperature limit ($MAX): " read XMAXP if [ -n "$XMAXP" ] then if [ "$MAXPWM" = "" ] then MAXPWM="${pwms}=${XMAXP}" else MAXPWM="$(echo $MAXPWM | sed -e "s/${pwmsed}[^ ]* *//g") ${pwms}=${XMAXP}" fi fi echo break; done break ;; *) echo "No such option. Enter a number." break ;; esac done done