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//proc/self/root/proc/self/root/usr/sbin/fancontrol.pl
#!/usr/bin/perl -wT # $Id: fancontrol.pl 4588 2007-07-08 10:01:50Z khali $ # # Perl script for temperature dependent fan speed control. # # Copyright 2004 dean takemori <deant@hawaii.rr.com> # # This is a reimplementation in perl of Marius Reiner's bash script for # fan speed control. It has advantages in that it can daemonize itself # and needn't spawn subprocesses for grep, sleep etc. Much of the structure # of the bash script is preserved to make mirroring changes easier, so # this is seriously non-idiomatic perl but at the same time it should not # be considered a a direct bash to perl translation. # # Usage: fancontrol [CONFIGFILE] # # For configuration instructions and warnings please see fancontrol.txt, # which can be found in the doc/ directory or at the website mentioned # elsewhere. # # This script is derived from Marius Reiner's bash version, so it is # hereby placed under the GPL. # # Copyright 2003 Marius Reiner <marius.reiner@hdev.de> # # 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., 675 Mass Ave, Cambridge, MA 02139, USA. # use warnings; use strict; use IO::Handle; use Getopt::Std; use POSIX; $ENV{PATH} = "/bin:/usr/bin"; ##### Configuration ##### use constant DEBUG => 0; use constant MAX => 255; use constant PIDFILE => '/var/run/fancontrol.pid'; use constant CONFFILE => '/etc/fancontrol'; use constant LOGFILE => '/var/log/fancontrol/fancontrol.log'; use constant ERRFILE => '/var/log/fancontrol/fancontrol.err'; ### End Configuration ### our $interval; our $pwmo; our @afcpwm; our @afctemp; our @afcfan; our @afcmaxtemp; our @afcmintemp; our @afcminstart; our @afcminstop; sub loadconfig($); sub pwmdisable($); sub pwmenable($); sub restorefans(); sub calc(@); sub UpdateFanSpeeds(); END { restorefans(); } our $opt_d; getopts('d'); my $config = shift; if (defined($config)) { loadconfig($config); } else { loadconfig(CONFFILE); } ### Daemonize if ( defined($opt_d) && ($opt_d == 1) ) { my $pid = fork; POSIX::_exit(0) if $pid; unless (defined($pid)) { die("Couldn't fork: $!"); } open(*STDERR, '>', ERRFILE); IO::Handle::autoflush(*STDERR); open(*STDOUT, '>>', LOGFILE); IO::Handle::autoflush(*STDOUT); unless (POSIX::setsid()) { die("Couldn't open new session: $!"); } } ### Pidfile if (open(FILE, ">" . PIDFILE)) { print(FILE "$$\n"); close(FILE); } else { print(PIDFILE . ": $!\n"); } ### What kind of interface? our $sysfs = 0; our $dir = '/proc/sys/dev/sensors'; if (!(-d $dir)) { if ($afcpwm[0] =~ m/^hwmon\d/) { $dir = '/sys/class/hwmon'; } else { $dir = '/sys/bus/i2c/devices'; } if (!(-d $dir)) { die("No sensors found! (are the necessary modules loaded?) : $!\n"); } else { $sysfs = 1; } } ### Trap signals $SIG{TERM} = \&restorefans; $SIG{HUP} = \&restorefans; $SIG{INT} = \&restorefans; $SIG{QUIT} = \&restorefans; ### Enable PWM print("Enabling PWM on fans...\n"); my $fcvcount = 0; while ($fcvcount < $#afcpwm+1) { $pwmo = $afcpwm[$fcvcount]; unless (pwmenable($pwmo)) { die("Error enabling PWM on $dir/$pwmo : $!\n"); } $fcvcount++; } print("Starting automatic fan control...\n"); while(1) { UpdateFanSpeeds(); sleep($interval); } 1; ################################################################ sub loadconfig($) { my $file = shift; print("Loading configuration from $file ...\n"); unless ( (-e $file) && (-r $file) ) { die("Unable to read config file $file: $!"); } open(F, $file); our ($interval, $fctemps, $fcfans, $mintemp, $maxtemp, $minstart, $minstop); while($_ = <F>) { if ($_ =~ /^\s+$/) { next; } elsif ($_ =~ /^INTERVAL=\s*(.*)$/) { $interval = $1; next; } elsif ($_ =~ /^FCTEMPS=\s*(.*)$/) { $fctemps = $1; next; } elsif ($_ =~ /^FCFANS=\s*(.*)$/) { $fcfans = $1; next; } elsif ($_ =~ /^MINTEMP=\s*(.*)$/) { $mintemp = $1; next; } elsif ($_ =~ /^MAXTEMP=\s*(.*)$/) { $maxtemp = $1; next; } elsif ($_ =~ /^MINSTART=\s*(.*)$/) { $minstart = $1; next; } elsif ($_ =~ /^MINSTOP=\s*(.*)$/) { $minstop = $1; next; } } close(F); unless (defined($interval)) { die("Some settings missing ..."); } print("\nCommon settings:\n"); print(" INTERVAL=$interval\n"); my $fcvcount = 0; foreach my $fcv (split(/\s+/, $fctemps)) { ($afcpwm[$fcvcount], $afctemp[$fcvcount]) = split(/=/, $fcv); $fcfans =~ s/^\S*=(\S+)\s*//; $afcfan[$fcvcount] = $1; $mintemp =~ s/^\S*=(\S+)\s*//; $afcmintemp[$fcvcount] = $1; $maxtemp =~ s/^\S*=(\S+)\s*//; $afcmaxtemp[$fcvcount] = $1; $minstart =~ s/^\S*=(\S+)\s*//; $afcminstart[$fcvcount] = $1; $minstop =~ s/^\S*=(\S+)\s*//; $afcminstop[$fcvcount] = $1; print("\nSettings for $afcpwm[$fcvcount]:\n"); print(" Depends on $afctemp[$fcvcount]\n"); print(" Controls $afcfan[$fcvcount]\n"); print(" MINTEMP = $afcmintemp[$fcvcount]\n"); print(" MAXTEMP = $afcmaxtemp[$fcvcount]\n"); print(" MINSTART = $afcminstart[$fcvcount]\n"); print(" MINSTOP = $afcminstop[$fcvcount]\n"); $fcvcount++; } } ################################################################ sub pwmdisable($) { my $p = shift; if ($sysfs == 1) { if (open(F, ">$dir/$p")) { print(F MAX . '\n'); close(F); } else { die("$dir/$p : $!"); } my $enable = "$dir/${p}_enable"; if (-f $enable) { if (open(F, ">$enable")) { print(F '0'); close(F); } else { die("$enable : $!"); } } } else { if (open(F, ">$dir/$p")) { print(F MAX . ' 0'); close(F); } else { die("$dir/$p : $!"); } } return(1); } ################################################################# sub pwmenable($) { my $p = shift; if ($sysfs == 1) { my $enable = "$dir/${p}_enable"; if (-f $enable) { if (open(F, ">$enable")) { print(F "1\n"); close(F); } else { die("$enable : $!\n"); } } } else { if (open(F, ">$dir/$p")) { print(F MAX . " 1\n"); close(F); } else { die("$dir/$p : $!\n"); } } return(1); } ################################################################ sub restorefans() { $SIG{TERM} = 'IGNORE'; $SIG{HUP} = 'IGNORE'; $SIG{INT} = 'IGNORE'; $SIG{QUIT} = 'IGNORE'; print("Aborting, restoring fans...\n"); my $fcvcount = 0; while ( $fcvcount < $#afcpwm+1) { my $pwmo = $afcpwm[$fcvcount]; &pwmdisable($afcpwm[$fcvcount]); $fcvcount++; } print("Verify fans have returned to full speed\n"); POSIX:_exit(-1); } ############################################################ sub UpdateFanSpeeds() { my $fcvcount = 0; while ($fcvcount < $#afcpwm+1) { my $pwmo = $afcpwm[$fcvcount]; my $tsens = $afctemp[$fcvcount]; my $fan = $afcfan[$fcvcount]; my $mint = $afcmintemp[$fcvcount]; my $maxt = $afcmaxtemp[$fcvcount]; my $minsa = $afcminstart[$fcvcount]; my $minso = $afcminstop[$fcvcount]; ### tval my $tval = 0; if (open(F, "$dir/$tsens")) { $tval = <F>; close(F); } else { die("Error reading temperature from $dir/$tsens"); } $tval =~ /([.\d]+)\s*$/; $tval = int($1); if ($sysfs == 1) { $tval /= 1000; } ### pwmpval my $pwmpval = 0; if (open(F, "$dir/$pwmo")) { $pwmpval = <F>; close(F); } else { die("Error reading PWM value from $dir/$pwmo"); } ($pwmpval) = split(/\s/, $pwmpval); ### fanval my $fanval = 0; if (open(F, "$dir/$fan")) { $fanval = <F>; close(F); } else { die("Error reading Fan value from $dir/$fan"); } $fanval =~ /(\d+)\s$/; $fanval = $1; ### DEBUG if (DEBUG == 1) { print("pwmo=$pwmo\n"); print("tsens=$tsens\n"); print("fan=$fan\n"); print("mint=$mint\n"); print("maxt=$maxt\n"); print("minsa=$minsa\n"); print("minso=$minso\n"); print("tval=$tval\n"); print("pwmpval=$pwmpval\n"); print("fanval=$fanval\n"); print("\n"); } my $pwmval; if ($tval <= $mint) { $pwmval = 0; } elsif ($tval >= $maxt) { $pwmval = MAX; } else { $pwmval = eval ( ($tval - $mint) / ($maxt - $mint) ); $pwmval *= (255 - $minso); $pwmval += $minso; $pwmval = int($pwmval); if ( ($pwmval == 0) || ($fanval == 0) ) { if (open(F, ">$dir/$pwmo")) { print(F "$minsa\n"); close(F); } else { die("Error writing PWM value to $dir/$pwmo : $!\n"); } sleep 1; } } if (open(F, ">$dir/$pwmo")) { print(F "$pwmval\n"); close(F); } else { die("Error writing PWM value to $dir/$pwmo : $!\n"); } if (DEBUG == 1) { print("new pwmval = $pwmval\n"); } $fcvcount++; } } 1;