#! /bin/sh
#
# Script to start or stop laptop_mode, and to control various settings of the
# kernel, hardware etc. that influence power consumption.
#
# This script is a part of Laptop Mode Tools. If you are running a supported
# power management daemon, this script will be automatically called on power
# state change.
#
# Configure laptop mode tools in /etc/laptop-mode/laptop-mode.conf, and in
# the broken-out config files in /etc/laptop-mode/conf.d.
#
# Please consult the manual pages laptop-mode.conf(8) and laptop_mode(8) for
# additional information.
#
# Maintainer:             Ritesh Raj Sarraf (rrs@researchut.com)
# Original Author:        Bart Samwel (bart@samwel.tk)
# Project home page: http://samwel.tk/laptop_mode
#
# Contributors to this script:   Bart Samwel
#				 Kiko Piris
#				 Micha Feigin
#				 Andrew Morton
#				 Herve Eychenne
#				 Dax Kelson
#				 Jan Polacek
#				 ... and many others that I've stopped
#				 keeping track of.
#
# Based on a script for Linux 2.4 written by Jens Axboe.
#
#############################################################################

set -a

# The laptop mode tools version number. Extracted by the installer makefile
# as well, so don't change the format!
LMTVERSION=1.64

# This script is loaded from multiple scripts to set the config defaults
# and to read the configuration on top of those. Only when the command is
# recognized does this script do anything else.
VERBOSE_OUTPUT=0
ENABLE_LAPTOP_MODE_ON_BATTERY=1
ENABLE_LAPTOP_MODE_ON_AC=0
ENABLE_LAPTOP_MODE_WHEN_LID_CLOSED=0
PARTITIONS="auto /dev/mapper/*"
LM_BATT_MAX_LOST_WORK_SECONDS=600
LM_AC_MAX_LOST_WORK_SECONDS=360
DEF_MAX_AGE=30
LM_READAHEAD=3072
NOLM_READAHEAD=128
CONTROL_READAHEAD=1	
CONTROL_NOATIME=0
USE_RELATIME=1
CONTROL_HD_IDLE_TIMEOUT=1
LM_AC_HD_IDLE_TIMEOUT=4    # 20 seconds
LM_BATT_HD_IDLE_TIMEOUT=4  # 20 seconds
NOLM_HD_IDLE_TIMEOUT=244   # 2 hours
DEF_UPDATE=5
DEF_XFS_AGE_BUFFER=15
DEF_XFS_SYNC_INTERVAL=30
DEF_XFS_BUFD_INTERVAL=1
XFS_HZ=100
CONTROL_MOUNT_OPTIONS=1
BATT_HD_POWERMGMT=1
LM_AC_HD_POWERMGMT=254
NOLM_AC_HD_POWERMGMT=254
CONTROL_HD_POWERMGMT=0
CONTROL_HD_WRITECACHE=0
NOLM_AC_HD_WRITECACHE=1
NOLM_BATT_HD_WRITECACHE=0
LM_HD_WRITECACHE=0
LM_DIRTY_RATIO=60
LM_DIRTY_BACKGROUND_RATIO=1
NOLM_DIRTY_BACKGROUND_RATIO=10
NOLM_DIRTY_RATIO=40
LM_SECONDS_BEFORE_SYNC=2	
BATT_CPU_MAXFREQ=medium
BATT_CPU_MINFREQ=slowest
BATT_CPU_GOVERNOR=ondemand
BATT_CPU_IGNORE_NICE_LOAD=1
LM_AC_CPU_MAXFREQ=fastest
LM_AC_CPU_MINFREQ=slowest
LM_AC_CPU_GOVERNOR=ondemand
LM_AC_CPU_IGNORE_NICE_LOAD=1
NOLM_AC_CPU_MAXFREQ=fastest
NOLM_AC_CPU_MINFREQ=slowest
NOLM_AC_CPU_GOVERNOR=ondemand
NOLM_AC_CPU_IGNORE_NICE_LOAD=0
CONTROL_CPU_FREQUENCY=0
HD="/dev/[hs]d[abcdefgh]"
CONTROL_SYSLOG_CONF=0
LM_AC_SYSLOG_CONF=/etc/syslog-on-ac-with-lm.conf
NOLM_AC_SYSLOG_CONF=/etc/syslog-on-ac-without-lm.conf
BATT_SYSLOG_CONF=/etc/syslog-on-battery.conf
SYSLOG_CONF_SIGNAL_PROGRAM=syslogd
SYSLOG_CONF=/etc/syslog.conf
CONTROL_DPMS_STANDBY=0
BATT_DPMS_STANDBY=300
LM_AC_DPMS_STANDBY=1200
NOLM_AC_DPMS_STANDBY=1200
CONTROL_CPU_THROTTLING=0
BATT_CPU_THROTTLING=medium
LM_AC_CPU_THROTTLING=minimum
NOLM_AC_CPU_THROTTLING=minimum
CONTROL_START_STOP=1
CONTROL_TERMINAL=0
TERMINALS="/dev/vc/1 /dev/vcs1"
BATT_TERMINAL_BLANK_MINUTES=1
BATT_TERMINAL_POWERDOWN_MINUTES=2
LM_AC_TERMINAL_BLANK_MINUTES=10
LM_AC_TERMINAL_POWERDOWN_MINUTES=10
NOLM_AC_TERMINAL_BLANK_MINUTES=10
NOLM_AC_TERMINAL_POWERDOWN_MINUTES=50
ENABLE_AUTO_HIBERNATION=0
HIBERNATE_COMMAND=/usr/sbin/hibernate
AUTO_HIBERNATION_ON_CRITICAL_BATTERY_LEVEL=1
DISABLE_LAPTOP_MODE_ON_CRITICAL_BATTERY_LEVEL=1
AUTO_HIBERNATION_BATTERY_CHARGE_MAH=0
AUTO_HIBERNATION_BATTERY_CHARGE_MWH=0
MINIMUM_BATTERY_CHARGE_MAH=0
MINIMUM_BATTERY_CHARGE_MWH=0
ASSUME_SCSI_IS_SATA=1
CONTROL_BRIGHTNESS=0
BATT_BRIGHTNESS_COMMAND=false
LM_AC_BRIGHTNESS_COMMAND=false
NOLM_AC_BRIGHTNESS_COMMAND=false
LOG_TO_SYSLOG=1
DEBUG=0
ENABLE_LAPTOP_MODE_TOOLS=1

# Initialize the PATH Variable
export PATH="${PATH}":/bin:/sbin:/usr/bin:/usr/sbin

# This is a 2 phase locking approach. LMT_REQ_LOCK is the outer lock and LMT_INVOC_LOCK is the inner lock
# We take this approach to ensure the scenario that, "At any point when an event occurs (AC/BATT), the
# kernel can generate multiple events spanning over a couple of events. The first event is honored and
# lmt executes. If the last event triggered at the 9th second, there is a fair chance that a good amount
# of state change would have occured in the OS, to honor that state, we keep an outer lock  (LMT_REQ_LOCK)
# handy, so that those changes can also be applied and not forgotten.
# Workflow:
# Event-1 is generated and lmt executes (lmt runtime could span 5-10 seconds)
# At seventh second, 4 events generate. But Event-1 is still running.
# We don't want to discard all the remaining 4 events, but at least honor 1 so that we can act to the changes
# that occured in the last 7 seconds.
# So, Event-2 acquire LMT_REQ_LOCK and waits to acquire LMT_INVOC_LOCK (which is acquire by Event-1)
LMT_REQ_LOCK="/var/lock/lmt-req.lock"
LMT_INVOC_LOCK="/var/lock/lmt-invoc.lock"
LMT_BATTPOLL_LOCK="/var/lock/lmt-battpoll.lock"
FLOCK=`which flock`

checkint ()
{
    # $1 arg should be the string/integer
    # that you want to check for as an integer.
    echo $1 | grep "[^0-9]" > /dev/null 2>&1

    return $?;
    # Returns 1 if it is an integer
}

# Function to handle logging
LOGGER=`which logger`;

log ()
{
# $1 should be msg type
# $2 should be the real msg
if [ x$LOG_TO_SYSLOG = x1 ]; then
    # NOTE: Add the check on $2 being empty, once you are confident
    # that there aren't any bugs in logging. And no bugs in executing 
    # modules and logging
    if [ -x $LOGGER -a "$1" != "STATUS" ]; then
        #if [ -z $2 ]; then
        #    continue
        #elif [ "$1" = "MSG" ]; then
        if [ "$1" = "MSG" ]; then
            logger -p daemon.info -t laptop-mode "$2";
        elif [ "$1" = "ERR" ]; then
            logger -p daemon.err -t laptop-mode "$2";
        elif [ "$1" = "VERBOSE" ]; then
		if [ x$VERBOSE_OUTPUT = x1 ]; then
            		logger -p daemon.debug -t laptop-mode "$2";
		fi
        else
            logger -p daemon.notice -t laptop-mode "$2";
        fi
    fi
fi

if [ "$1" = "VERBOSE" ]; then
    $LM_VERBOSE &&  echo "$2" >>/dev/fd/2;
elif [ "$1" = "ERR" ]; then
    echo "$2" >>/dev/fd/2;
else
    # Message of type MSG and STATUS can go to stdout.
    echo "$2" >>/dev/fd/1;
fi
}

enableDebug ()
{
        # Check if debug is enabled
        if [ x$(($(basename $1 | cut -d . -f1 | tr "[:lower:]" "[:upper:]" | sed 's/-/_/g')_DEBUG)) = x1 ]; then
                set -vx
        fi
}

disableDebug ()
{
        # Check if debug is enabled
        if [ x$(($(basename $1 | cut -d . -f1 | tr "[:lower:]" "[:upper:]" | sed 's/-/_/g')_DEBUG)) = x1 ]; then
                set +vx
        fi
}

# No default on these ones -- we need to detect if they have been set, for
# backward compatibility with MINIMUM_BATTERY_MINUTES etc.
AUTO_HIBERNATION_BATTERY_CHARGE_PERCENT=
MINIMUM_BATTERY_CHARGE_PERCENT=

# Backward compatibility variable that is sometimes
# set externally (Debian init system)
unset VERBOSE

lmt_load_config ()
{
    # Source config. Some config settings have been moved from the main config file
    # to modular configuration files, and to support existing laptop-mode.conf
    # files from earlier versions, we source the modular configuration files FIRST.
    CONF_DIR=""
    test -d /etc/laptop-mode/conf.d && CONF_DIR="$CONF_DIR /etc/laptop-mode/conf.d"
    test -d /etc/laptop-mode/conf.d/board-specific && CONF_DIR="$CONF_DIR /etc/laptop-mode/conf.d/board-specific"

    for PER_DIR in $CONF_DIR; do
	    for CONF in $PER_DIR/*.conf; do
		    if [ -r "$CONF" ] ; then
			    . "$CONF"
			    #Handle individual module debug settings
			    if [ "$DEBUG" -eq 1 ]; then
				    export $(basename $CONF | cut -d . -f1 | tr "[:lower:]" "[:upper:]" | sed 's/-/_/g')_DEBUG=1
				    log "VERBOSE" "Enabling debug mode for module $CONF"
			    fi
			    DEBUG=0
		    else
			    log "MSG" "Warning: Configuration file $CONF is not readable, skipping."
		    fi
	    done
    done

    if [ -r /etc/laptop-mode/laptop-mode.conf ] ; then
	    . /etc/laptop-mode/laptop-mode.conf
    else
	    log "ERR" "$0: Configuration file /etc/laptop-mode/laptop-mode.conf not present or not readable."
	    exit 1
    fi

    # Add a simple bash debug mode switch
    if [ "$DEBUG" -eq 1 ]; then
	set -vx;
    fi

    # Support for old config settings
    if [ "$AC_HD" != "" ] ; then
	    AC_HD_WITHOUT_LM="$AC_HD"
	    AC_HD_WITH_LM="$AC_HD"
    fi
    if [ "$VERBOSE" != "" ] ; then
	    VERBOSE_OUTPUT="$VERBOSE"
    fi
    if [ "$CPU_MAXFREQ" != "" ] ; then
	    BATT_CPU_MAXFREQ="$CPU_MAXFREQ"
    fi
    if [ "$MAX_AGE" != "" ] ; then
	    LM_BATT_MAX_LOST_WORK_SECONDS="$MAX_AGE"
	    LM_AC_MAX_LOST_WORK_SECONDS="$MAX_AGE"
    fi
    if [ "$DEF_AGE" != "" ] ; then
	    DEF_MAX_AGE="$DEF_AGE"
    fi
    if [ "$LAPTOP_MODE_ALWAYS_ON" != "" ] ; then
	    ENABLE_LAPTOP_MODE_ALWAYS="$LAPTOP_MODE_ALWAYS_ON"
    fi
    if [ "$LM_WHEN_LID_CLOSED" != "" ] ; then
	    ENABLE_LAPTOP_MODE_WHEN_LID_CLOSED="$LM_WHEN_LID_CLOSED"
    fi
    if [ "$REMOUNT_PARTITIONS" != "" ] ; then
	    PARTITIONS="$REMOUNT_PARTITIONS"
    fi
    if [ "$READAHEAD" != "" ] ; then
	    LM_READAHEAD="$READAHEAD"
    fi
    if [ "$DO_REMOUNT_NOATIME" != "" ] ; then
	    CONTROL_NOATIME="$DO_REMOUNT_NOATIME"
    fi
    if [ "$DO_HD" != "" ] ; then
	    CONTROL_HD_IDLE_TIMEOUT="$DO_HD"
    fi
    if [ "$AC_HD_WITH_LM" != "" ] ; then
	    LM_AC_HD_IDLE_TIMEOUT="$AC_HD_WITH_LM"
    fi
    if [ "$AC_HD_WITHOUT_LM" != "" ] ; then
	    NOLM_HD_IDLE_TIMEOUT="$AC_HD_WITHOUT_LM"
    fi
    if [ "$BATT_HD" != "" ] ; then
	    LM_BATT_HD_IDLE_TIMEOUT="$BATT_HD"
    fi		
    if [ "$DO_REMOUNTS" != "" ] ; then
	    CONTROL_MOUNT_OPTIONS="$DO_REMOUNTS"
    fi	
    if [ "$DO_HD_POWERMGMT" != "" ] ; then
	    CONTROL_HD_POWERMGMT="$DO_HD_POWERMGMT"
    fi
    if [ "$AC_HDPARM_POWERMGMT_WITH_LM" != "" ] ; then
	    LM_AC_HD_POWERMGMT="$AC_HDPARM_POWERMGMT_WITH_LM"
    fi
    if [ "$AC_HDPARM_POWERMGMT_WITHOUT_LM" != "" ] ; then
	    NOLM_AC_HD_POWERMGMT="$AC_HDPARM_POWERMGMT_WITHOUT_LM"
    fi
    if [ "$BATT_HDPARM_POWERMGMT" != "" ] ; then
	    BATT_HD_POWERMGMT="$BATT_HDPARM_POWERMGMT"
    fi
    if [ "$DO_WRITECACHE" != "" ] ; then
	    CONTROL_HD_WRITECACHE="$DO_WRITECACHE"
    fi
    if [ "$AC_WRITECACHE_WITHOUT_LM" != "" ] ; then
	    NOLM_AC_HD_WRITECACHE="$AC_WRITECACHE_WITHOUT_LM"
    fi
    if [ "$BATT_WRITECACHE" != "" ] ; then
	    LM_HD_WRITECACHE="$BATT_WRITECACHE"
    fi
    if [ "$DIRTY_RATIO" != "" ]; then
	    LM_DIRTY_RATIO="$DIRTY_RATIO"
    fi
    if [ "$DIRTY_BACKGROUND_RATIO" != "" ] ; then
	    LM_DIRTY_BACKGROUND_RATIO="$DIRTY_BACKGROUND_RATIO"
    fi
    if [ "$DEF_DIRTY_RATIO" != "" ]; then
	    NOLM_DIRTY_RATIO="$DEF_DIRTY_RATIO"
    fi
    if [ "$DEF_DIRTY_BACKGROUND_RATIO" != "" ] ; then
	    NOLM_DIRTY_BACKGROUND_RATIO="$DEF_DIRTY_BACKGROUND_RATIO"
    fi
    if [ "$DO_CPU" != "" ] ; then
	    CONTROL_CPU_FREQUENCY="$DO_CPU"
    fi
    if [ "$CONTROL_CPU_MAXFREQ" != "" ] ; then
	    CONTROL_CPU_FREQUENCY="$CONTROL_CPU_MAXFREQ"
    fi
    if [ "$AC_CPU_MAXFREQ_WITH_LM" != "" ] ; then
	    LM_AC_CPU_MAXFREQ="$AC_CPU_MAXFREQ_WITH_LM"
    fi
    if [ "$AC_CPU_MAXFREQ_WITHOUT_LM" != "" ] ; then
	    NOLM_AC_CPU_MAXFREQ="$AC_CPU_MAXFREQ_WITHOUT_LM"
    fi
    if [ "$DO_SYSLOG" != "" ] ; then
	    CONTROL_SYSLOG_CONF="$DO_SYSLOG"
    fi
    if [ "$SYSLOG_SIGNAL_PROGRAM" != "" ] ;then
	    SYSLOG_CONF_SIGNAL_PROGRAM="$SYSLOG_SIGNAL_PROGRAM"
    fi
    if [ "$AC_SYSLOG_WITH_LM" != "" ] ; then
	    LM_AC_SYSLOG_CONF="$AC_SYSLOG_WITH_LM"
    fi
    if [ "$AC_SYSLOG_WITHOUT_LM" != "" ] ; then
	    NOLM_AC_SYSLOG_CONF="$AC_SYSLOG_WITHOUT_LM"
    fi
    if [ "$BATT_SYSLOG" != "" ] ; then
	    BATT_SYSLOG_CONF="$BATT_SYSLOG"
    fi
    if [ "$ENABLE_LAPTOP_MODE_ALWAYS" != "" ] ; then
	    ENABLE_LAPTOP_MODE_ON_AC="$ENABLE_LAPTOP_MODE_ALWAYS"
    fi
    if [ "$MINIMUM_BATTERY_MINUTES" != "" -a "$MINIMUM_BATTERY_CHARGE_PERCENT" = "" ] ; then
	    # Use a very conservative estimate (1% = 1 battery minute, 100 minutes in a battery)
	    # for backward compatibility.
	    MINIMUM_BATTERY_CHARGE_PERCENT="$MINIMUM_BATTERY_MINUTES"
    fi
    if [ -z "$MINIMUM_BATTERY_CHARGE_PERCENT" ] ; then
	    # Apply the default, now that we've determined that this is the minimum.
	    MINIMUM_BATTERY_CHARGE_PERCENT=3
    fi
    if [ "$AUTO_HIBERNATION_BATTERY_MINUTES" != "" -a "$AUTO_HIBERNATION_BATTERY_CHARGE_PERCENT" = "" ] ; then
	    # Use a very conservative estimate (1% = 1 battery minute, 100 minutes in a battery)
	    # for backward compatibility.
	    AUTO_HIBERNATION_BATTERY_CHARGE_PERCENT="$AUTO_HIBERNATION_BATTERY_MINUTES"
    fi
    if [ -z "$AUTO_HIBERNATION_BATTERY_CHARGE_PERCENT" ] ; then
	    # Apply the default, now that we've determined that this is the minimum.
	    AUTO_HIBERNATION_BATTERY_CHARGE_PERCENT=2
    fi

    # Postprocessing
    if [ "$VERBOSE_OUTPUT" -ne 0 ] ; then
	    OUTPUT="/dev/stdout"
	    LM_VERBOSE="[ 1 = 1 ]"
    else
	    OUTPUT="/dev/null"
	    LM_VERBOSE="[ 1 = 0 ]"
    fi

    if [ "$PARTITIONS" = "" ] ; then
	    PARTITIONS="auto /dev/mapper/*"
    fi


    # Expand shell wild cards immediately.
    PARTITIONS=$( echo $PARTITIONS )
    TERMINALS=$( echo $TERMINALS )

    # Convert seconds to hdparm -S format
    # Everything over 20 minutes is interpreted as 2 hours.
    seconds_to_hdparm_S() {
      if [ "$1" -eq 0 ] ; then
	    # disable.
	    echo 0
    elif [ "$1" -gt 0 -a "$1" -lt 5 ] ; then
	    # 5 seconds minimum
	    echo 1 	
      elif [ "$1" -le $((240*5)) ] ; then
	    # Values between 1 and 240 signify increments of 5 seconds
	    echo $(($1 / 5))
      elif [ "$1" -lt $((30*60)) ] ; then
	    # Values between 20 and 30 minutes are rounded up to 30 minutes.
	    echo 241
      elif [ "$1" -lt $((12*30*60)) ] ; then
	    # Values between 30 minutes and 6 hours (exclusive) yield values between
	    # 241 and 251, in 30-minute increments.
	    echo $(( 240 + ($1 / (30*60)) ))
      else
	    # Larger values effectively indicate no timeout at all.
	    echo 0
      fi
    }

    # Convert configured idle timeouts to hdparm -S format.
    if [ "$LM_AC_HD_IDLE_TIMEOUT_SECONDS" != "" ] ; then
	    LM_AC_HD_IDLE_TIMEOUT=$(seconds_to_hdparm_S $LM_AC_HD_IDLE_TIMEOUT_SECONDS)
    fi
    if [ "$LM_BATT_HD_IDLE_TIMEOUT_SECONDS" != "" ] ; then
	    LM_BATT_HD_IDLE_TIMEOUT=$(seconds_to_hdparm_S $LM_BATT_HD_IDLE_TIMEOUT_SECONDS)
    fi
    if [ "$NOLM_HD_IDLE_TIMEOUT_SECONDS" != "" ] ; then
	    NOLM_HD_IDLE_TIMEOUT=$(seconds_to_hdparm_S $NOLM_HD_IDLE_TIMEOUT_SECONDS)
    fi



    # Determine the power state.

    # First try /sys/class/power_supply/*
    FOUND_SYS_CLASS_POWER_SUPPLY_AC=0
    export ON_AC=0
    for POWER_SUPPLY in /sys/class/power_supply/* ; do
	    if [ -f $POWER_SUPPLY/type ] ; then
		    if [ "$(cat $POWER_SUPPLY/type)" != "Battery" ] ;then
			    log "VERBOSE" "Determining power state from $POWER_SUPPLY/online."
			    FOUND_SYS_CLASS_POWER_SUPPLY_AC=1
			    if [ "$(cat $POWER_SUPPLY/online)" = 1 ] ; then
				    ON_AC=1
			    fi
		    fi
	    fi
    done

    if [ $FOUND_SYS_CLASS_POWER_SUPPLY_AC = 1 ] ; then
	    # Already found it!
	    log "VERBOSE" "Not trying other options, already found a power supply."
    elif [ -d /proc/acpi/ac_adapter ] ; then
	    log "VERBOSE" "Determining power state from /proc/acpi/ac_adapter."
	    ADAPTERS_FOUND=0
	    ON_AC=0
	    for ADAPTER in /proc/acpi/ac_adapter/* ; do
		    if [ -f $ADAPTER/state ] ; then
			    ADAPTERS_FOUND=1
			    STATUS=`awk '/^state: / { print $2 }' $ADAPTER/state`
			    if [ "$STATUS" = "on-line" ] ; then
				    ON_AC=1
			    fi
		    fi
	    done
	    if [ "$ADAPTERS_FOUND" -eq 0 ] ; then
		    ON_AC=1
	    fi
    elif [ -f /proc/pmu/info ] ; then
	    log "VERBOSE" "Determining power state from /proc/pmu/info."
	    if ( grep -q "^AC Power.*0$" /proc/pmu/info ) ; then
		    log "VERBOSE" "/proc/pmu/info indicates absence of AC power."
		    ON_AC=0
	    else
		    # It is possible that there is no AC Power = 1 in the file,
		    # but we always assume AC power when we're not sure.
		    ON_AC=1
		    log "VERBOSE" "/proc/pmu/info indicates presence of AC power."
	    fi
    elif [ -f /proc/apm ] ; then
	    log "VERBOSE" "Determining power state from /proc/apm."
	    read D1 D2 D3 APM_AC_STATE D0 </proc/apm
	    if [ "$APM_AC_STATE" = "0x00" ] ; then
		    ON_AC=0
	    else
		    ON_AC=1
	    fi
    else
	    log "VERBOSE" "No /sys/class/power_supply, ACPI, APM or PMU power management information found -- assuming AC power is present."
	    ON_AC=1
    fi

    
    INIT=0          # Display info in init script format?
    FORCE=0         # Force reapplying the current state?
    INITSCRIPT_STOP=0	# Track stop command from init script. Consumer is lm-polling daemon

    # Evaluate options passed to laptop_mode in here
    if [ "$1" = "status" ] ; then
	    # Display a status report.
	    log "STATUS" "Mounts:"
	    mount | grep ^/dev | sed "s/^/   /"
	    log "STATUS" " "
	    log "STATUS" "Drive power status:"
	    for disk in $HD; do
		    if [ -r $disk ]; then
			    hdparm -C $disk 2>/dev/null | sed "s/^/   /"
		    else
			    log "STATUS" "   Cannot read $disk, permission denied - $0 needs to be run as root"
		    fi
	    done
	    log "STATUS" " "
	    log "STATUS" "(NOTE: drive settings affected by Laptop Mode cannot be retrieved.)"

	    log "STATUS" " "
	    log "STATUS" "Readahead states:"
	    cat /etc/mtab | while read DEV MP FST OPTS DUMP PASS ; do
		    # skip funny stuff
		    case "$FST" in 
		      rootfs|unionfs|tmpfs|squashfs|sysfs|usbfs|proc|devpts) continue
		      ;;
		    esac
		    if [ -b $DEV ] ; then
			    if [ -r $DEV ] ; then
				    log "STATUS" "   $DEV: $((`blockdev --getra $DEV` / 2)) kB"
			    else
				    log "STATUS" "   Cannot read $DEV, permission denied - $0 needs to be run as root"
			    fi
		    fi
	    done
	    log "STATUS" " "
	    if [ -e /var/run/laptop-mode-tools/enabled ] ; then
		    log "STATUS" "Laptop Mode Tools is allowed to run: /var/run/laptop-mode-tools/enabled exists."
	    else
		    log "STATUS" "Laptop Mode Tools is NOT allowed to run: /var/run/laptop-mode-tools/enabled does not exist."
	    fi
	log "STATUS" " "
	    STATFILES="/proc/sys/vm/laptop_mode /proc/apm /proc/pmu/info /proc/sys/vm/bdflush /proc/sys/vm/dirty_ratio /proc/sys/fs/xfs/age_buffer /proc/sys/fs/xfs/sync_interval /proc/sys/fs/xfs/lm_age_buffer /proc/sys/fs/xfs/lm_sync_interval /proc/sys/vm/pagebuf/lm_flush_age /proc/sys/fs/xfs/xfsbufd_centisecs /proc/sys/fs/xfs/xfssyncd_centisecs /proc/sys/vm/dirty_background_ratio /proc/sys/vm/dirty_expire_centisecs /proc/sys/fs/xfs/age_buffer/centisecs /proc/sys/vm/dirty_writeback_centisecs /sys/devices/system/cpu/*/cpufreq/cpuinfo_*_freq /sys/devices/system/cpu/*/cpufreq/scaling_governor /proc/acpi/button/lid/*/state /proc/acpi/ac_adapter/*/state /proc/acpi/battery/*/state /sys/class/power_supply/*/online /sys/class/power_supply/*/state"
	    for THISFILE in $STATFILES ; do
		    if [ -e "$THISFILE" ] ; then
			    log "STATUS" "$THISFILE:"
			    if [ -r "$THISFILE" ] ; then
				    cat "$THISFILE" | sed "s/^/   /"
			    else
				    log "STATUS" "   Not accessible, permission denied - $0 needs to be run as root."
			    fi
			    log "STATUS" " "
		    fi
	    done

    elif [ "$1" != "readconfig" -a "$1" != "defaults" ] ; then

    #############################################################################

    KLEVEL="$(uname -r |
			    {
				    IFS='.-' read a b c
				    echo $a.$b
			    }
    )"
    KMINOR="$(uname -r |
			    {
				    IFS='.-' read a b c d
				    # Strip any stuff from the end -- only the initial digits are part of the KMINOR.
				    echo $c | sed -e 's/\([[:digit:]]*\).*/\1/'
			    }
    )"

    # Stop exporting everything -- what we do from here is private.
    set +a

    if [ "$1" = "--version" ] ; then
	    log "MSG" "Laptop Mode Tools $LMTVERSION"
	    exit 0
    fi

    if [ ! -e /proc/sys/vm/laptop_mode ] ; then
	    log "ERR" "Kernel does not have support for laptop mode. Please apply the laptop mode"
	    log "ERR" "patch or install a newer kernel."
	    exit 1
    fi

    if [ ! -w /proc/sys/vm/laptop_mode ] ; then
	    log "ERR" "You do not have enough privileges to enable laptop_mode."
	    exit 1
    fi

    while [ "$1" != "" ] ; do
	    case "$1" in 
		    init) INIT=1 ;;
		    force) FORCE=1 ;;
		    # Old options. We always do "auto" for any option now, but
		    # we still have to accept the options.
		    start) ;;
		    stop) INITSCRIPT_STOP=1 ;;
		    auto) ;;
		    modules=*)
			    MODULES=$1
			    MODULES=${MODULES#"modules="}
			    ;;
		    devices=*)
			    DEVICES=$1
			    DEVICES=${DEVICES#"devices="}
			    ;;
		    *) log "ERR" "Unrecognized option $1."
		      exit 1 ;;
	    esac
	    shift
    done
  fi
}


# The main workhorse.
lmt_main_function ()
{

    mkdir -p /var/run/laptop-mode-tools

    # Used to display laptop mode state later on. This is the enabled/disabled 
    # state for laptop mode processing, it tells us nothing about whether laptop
    # mode is actually _active_.
    STATE=disabled
    if [ x$ENABLE_LAPTOP_MODE_TOOLS = x1 ]; then
	touch /var/run/laptop-mode-tools/enabled
	STATE=enabled
    fi

    if [ "$ENABLE_LAPTOP_MODE_ON_BATTERY" -eq 0 -a "$ENABLE_LAPTOP_MODE_ON_AC" -eq 0 -a "$ENABLE_LAPTOP_MODE_WHEN_LID_CLOSED" -eq 0 ] ; then
	    STATE=disabled
    fi


    # Determine whether to activate or deactivate laptop mode.
    ACTIVATE=0

    if [ "$ON_AC" -eq 1 ] ; then
	    if [ "$ENABLE_LAPTOP_MODE_ON_AC" -ne 0 ] ; then
		    log "VERBOSE" "On AC power: Activating, because ENABLE_LAPTOP_MODE_ON_AC is set."
		    ACTIVATE=1
	    else
		    log "VERBOSE" "On AC power: Deactivating, because ENABLE_LAPTOP_MODE_ON_AC is not set."
		    ACTIVATE=0
	    fi
    else
	    if [ "$ENABLE_LAPTOP_MODE_ON_BATTERY" -ne 0 ] ; then
		    log "VERBOSE" "On battery power: Activating, because ENABLE_LAPTOP_MODE_ON_BATTERY is set."
		    ACTIVATE=1
	    else
		    log "VERBOSE" "On battery power: Deactivating, because ENABLE_LAPTOP_MODE_ON_BATTERY is not set."
		    ACTIVATE=0
	    fi
    fi

    if [ "$ENABLE_LAPTOP_MODE_WHEN_LID_CLOSED" -ne 0 -a "$ACTIVATE" -eq 0 ] ; then
	    if [ -f /proc/acpi/button/lid/*/state ] ; then
		    if ( grep -q "closed" /proc/acpi/button/lid/*/state ) ; then
			    log "VERBOSE" 'Setting action to "start" because the lid is closed (says /proc/acpi/button/lid/*/state).'
			    ACTIVATE=1
		    fi
	    elif ( which hal-find-by-property >/dev/null ) ; then
		    HAL_LID_BUTTON=$($HAL_FIND_BY_PROPERTY --key "button.type" --string "lid")
		    if [ "$HAL_LID_BUTTON" != "" ] ; then
		    	HAL_LID_BUTTON_STATE=$(hal-get-property --udi $(hal-find-by-property --key "button.type" --string "lid") --key "button.state.value")
		    	if [ "$HAL_LID_BUTTON_STATE" = "true" ] ; then
			    log "VERBOSE" "Setting action to \"start\" because the lid is closed (says HAL)."
			    ACTIVATE=1			
		    	fi
		    fi
	    else
		    log "MSG" "Warning: ENABLE_LAPTOP_MODE_WHEN_LID_CLOSED is set, but there is no file"
		    log "MSG" "/proc/acpi/button/lid/.../state, and hal information is not available either!"
	    fi
    fi

    # If the init script has not been run or has been run with the "stop"
    # argument, then we should never start laptop mode.
    if [ ! -f /var/run/laptop-mode-tools/enabled -o x$INITSCRIPT_STOP = x1 ] ; then
	    log "VERBOSE" "Laptop mode disabled because /var/run/laptop-mode-tools/enabled is missing."
	    STATE=disabled
    fi

    if [ "$ACTIVATE" -eq 1 ]; then
	    if [ x$ENABLE_LAPTOP_MODE_TOOLS = x0 ]; then
		log "VERBOSE" "Not starting laptop mode because it is disabled in /etc/laptop-mode/laptop-mode.conf"
		STATE=disabled
	    fi
    fi

    if [ "$STATE" = "disabled" ] ; then
	    ACTIVATE=0
    fi

    # Check whether we are allowed to activate the data-loss-sensitive stuff.
    # If the battery charge is too low, we want to disable this, but not the
    # other power-saving stuff.

    if [ "$ACTIVATE" -eq 0 ] ; then
	    ACTIVATE_WITH_POSSIBLE_DATA_LOSS=0
    elif [ "$ON_AC" = 1 ] ; then
	    log "VERBOSE" "On AC, not checking minimum battery charge."
	    ACTIVATE_WITH_POSSIBLE_DATA_LOSS=1
    else
	    ACTIVATE_WITH_POSSIBLE_DATA_LOSS=1
	    ENOUGH_CHARGE=0
	    ENOUGH_CHARGE_TO_PREVENT_HIBERNATION=0

	    # Weird way of checking that /sys/class/power_supply is not empty -- but it works.
	    if [ "$(echo /sys/class/power_supply/*)" != '/sys/class/power_supply/*' ] ; then
		    log "VERBOSE" "Not on AC and we have battery information in /sys/class/power_supply/BAT* -- checking minimum battery charge."
		    for BATT in /sys/class/power_supply/* ; do
			    BATT_TYPE=$(cat $BATT/type)
			    log "VERBOSE" "$BATT is of type $BATT_TYPE."
			    if [ "$BATT_TYPE" != "Battery" ] ; then
				    log "VERBOSE" "Not of type \"Battery\", skipping."
			    else
				    PREV_ENOUGH_CHARGE=$ENOUGH_CHARGE
				    PREV_ENOUGH_CHARGE_TO_PREVENT_HIBERNATION=$ENOUGH_CHARGE_TO_PREVENT_HIBERNATION

				    log "VERBOSE" "Checking levels for $BATT."
				    PRESENT=$(cat $BATT/present)
				    log "VERBOSE" "Present: $PRESENT."

				    # Only do if the battery is present
				    if [ "$PRESENT" -eq 1 ] ; then
					    FOUND_AN_ENABLED_CHECK=0
					    FOUND_AN_ENABLED_HIBERNATION_CHECK=0
			    
					    # Get the remaining capacity.
					    IN_UAH=0
					    IN_UWH=0
					    if [ -f $BATT/charge_now ] ; then					
						    REMAINING=$(cat $BATT/charge_now)
						    IN_UAH=1 # charge_* is in microAmpere-hours
					    elif [ -f $BATT/energy_now ] ; then
						    REMAINING=$(cat $BATT/energy_now)
						    IN_UWH=1 # energy_* is in microWatt-hours
					    else
						    REMAINING=0
					    fi
					    if [ -z "$REMAINING" -o "$REMAINING" -eq 0 ] ; then
						    log "VERBOSE" "Battery does not report remaining charge. Perhaps it is not present?"
						    REMAINING=0
					    fi
					    log "VERBOSE" "Remaining charge: $REMAINING"

					    if [ -f $BATT/charge_full_design ] ; then
						    CAPACITY=$(cat $BATT/charge_full_design)
					    elif [ -f $BATT/energy_full_design ] ; then
						    CAPACITY=$(cat $BATT/energy_full_design)
					    else
						    CAPACITY=0
					    fi
					    if [ -z "$CAPACITY" -o "$CAPACITY" -eq 0 ] ; then
						    log "VERBOSE" "Battery does not report design full charge, using non-design full charge."
						    if [ -f $BATT/charge_full ] ; then
							    CAPACITY=$(cat $BATT/charge_full)
						    elif [ -f $BATT/energy_full_design ] ; then
							    CAPACITY=$(cat $BATT/energy_full)
						    else
							    CAPACITY=0
						    fi
						    if [ -z "$CAPACITY" -o "$CAPACITY" -eq 0 ] ; then
							    log "VERBOSE" "Battery does not report non-design full charge."	
							    CAPACITY=0
						    fi
					    fi
					    log "VERBOSE" "Full capacity: $CAPACITY"

					    # Check the charge percentage
					    if [ "$MINIMUM_BATTERY_CHARGE_PERCENT" -ne 0 ] ; then
						    FOUND_AN_ENABLED_CHECK=1
						    if [ "$CAPACITY" -eq 0 ] ; then
							    log "MSG" "WARNING: Battery does not report a capacity. Minimum battery"
							    log "MSG" "charge checking does not work without a design capacity."
							    ENOUGH_CHARGE=1
						    elif [ "$(($REMAINING * 100 / $CAPACITY))" -ge "$MINIMUM_BATTERY_CHARGE_PERCENT" ] ; then
							    ENOUGH_CHARGE=1
						    fi
					    fi
					    if [ "$AUTO_HIBERNATION_BATTERY_CHARGE_PERCENT" -ne 0 ] ; then
						    FOUND_AN_ENABLED_HIBERNATION_CHECK=1
						    if [ "$CAPACITY" -eq 0 ] ; then
							    log "MSG" "WARNING: Battery does not report a design capacity. Auto hibernation"
							    log "MSG" "does not work without a design capacity."
							    ENOUGH_CHARGE=1
						    elif [ "$(($REMAINING * 100 / $CAPACITY))" -ge "$AUTO_HIBERNATION_BATTERY_CHARGE_PERCENT" ] ; then
							    ENOUGH_CHARGE_TO_PREVENT_HIBERNATION=1
						    fi
					    fi

                                            if [ -f $BATT/alarm ]; then
                                                # $BATT/alarm is the design_capacity_warning of a battery.
                                                ALARM_LEVEL=$(cat $BATT/alarm)
                                            elif [ -f $BATT/energy_full ]; then
                                                # On Arm, it has been reported that there's no design_capacity_warning.
                                                # The design_capacity_warning is 5% of the energy_full value
                                                ENERGY_FULL=$(cat $BATT/energy_full)
                                                ALARM_LEVEL=$(expr $ENERGY_FULL \* 5 / 100)
                                            else
                                                # If nothing is available, we don't want to touch hibernation.
                                                # We'll rather report it
                                                log "ERR" "You seem to have a broken battery"
                                                log "ERR" "Cannot determine design_capacity_warning"
                                                log "ERR" "Disabling hibernation"
                                                ENOUGH_CHARGE=1
                                            fi
 
					    if [ "$ALARM_LEVEL" -ne 0 ] && [ "$DISABLE_BATTERY_ALARM_CHECK" -ne 1 ]; then
						    if [ "$REMAINING" -le "$ALARM_LEVEL" ] ; then				
							    # Restore the state we had before checking this battery, so that
							    # this battery does not count as having enough charge.
							    ENOUGH_CHARGE=$PREV_ENOUGH_CHARGE
						    elif [ "$FOUND_AN_ENABLED_CHECK" -eq 0 ] ; then
							    # This is the only check that is enabled. In that case a non-critical
							    # battery level counts as "enough". (If we would count non-critical
							    # battery levels as enough *always*, then the other settings would
							    # have no effect; this is only a final fallback.)
							    ENOUGH_CHARGE=1
						    fi
					    fi
					    if [ "$AUTO_HIBERNATION_ON_CRITICAL_BATTERY_LEVEL" -ne 0 ] ; then
						    if [ "$REMAINING" -le "$ALARM_LEVEL" ] ; then				
							    ENOUGH_CHARGE_TO_PREVENT_HIBERNATION=$PREV_ENOUGH_CHARGE_TO_PREVENT_HIBERNATION
						    elif [ "$FOUND_AN_ENABLED_HIBERNATION_CHECK" -eq 0 ] ; then
							    ENOUGH_CHARGE_TO_PREVENT_HIBERNATION=1
						    fi
					    fi
					    
					    #
					    # Fallback: hard values
					    #
					    if [ "$IN_UAH" -ne 0 ] ; then
						    if [ "$MINIMUM_BATTERY_CHARGE_MAH" -ne 0 ] ; then
							    FOUND_AN_ENABLED_CHECK=1
							    if [ "$REMAINING" -ge $((1000*"$MINIMUM_BATTERY_CHARGE_MAH")) ] ; then
								    ENOUGH_CHARGE=1
							    fi
						    fi
						    if [ "$AUTO_HIBERNATION_BATTERY_CHARGE_MAH" -ne 0 ] ; then
							    FOUND_AN_ENABLED_HIBERNATION_CHECK=1
							    if [ "$REMAINING" -ge $((1000*"$AUTO_HIBERNATION_BATTERY_CHARGE_MAH")) ] ; then
								    ENOUGH_CHARGE_TO_PREVENT_HIBERNATION=1
							    fi
						    fi
					    elif [ "$IN_UWH" -ne 0 ] ; then
						    if [ "$MINIMUM_BATTERY_CHARGE_MWH" -ne 0 ] ; then
							    FOUND_AN_ENABLED_CHECK=1
							    if [ "$REMAINING" -ge $((1000*"$MINIMUM_BATTERY_CHARGE_MWH")) ] ; then
								    ENOUGH_CHARGE=1
							    fi
						    fi
						    if [ "$AUTO_HIBERNATION_BATTERY_CHARGE_MWH" -ne 0 ] ; then
							    FOUND_AN_ENABLED_HIBERNATION_CHECK=1
							    if [ "$REMAINING" -ge $((1000*"$AUTO_HIBERNATION_BATTERY_CHARGE_MWH")) ] ; then
								    ENOUGH_CHARGE_TO_PREVENT_HIBERNATION=1
							    fi
						    fi
					    else
						    log "ERR" "Failed to determine battery charge. Battery charge units are not in"
						    log "ERR" "mWh, uWh, mAh or uAh."
					    fi
										    
				    else
					    log "VERBOSE" "Battery is not present."
				    fi
			    fi
		    done		
	    elif [ "$(echo /proc/acpi/battery/*)" != '/proc/acpi/battery/*' ] ; then
		    log "VERBOSE" "Not on AC and we have batteries in /proc/acpi/battery -- checking minimum battery charge."
		    for BATT in /proc/acpi/battery/* ; do
			    PREV_ENOUGH_CHARGE=$ENOUGH_CHARGE
			    PREV_ENOUGH_CHARGE_TO_PREVENT_HIBERNATION=$ENOUGH_CHARGE_TO_PREVENT_HIBERNATION

			    BATT_STATE=$BATT/state
			    BATT_INFO=$BATT/info
			    log "VERBOSE" "Checking info and state for $BATT."

			    # Only do if the battery is present
			    if ( grep -q 'present:.*yes' $BATT_INFO ) ; then
				    FOUND_AN_ENABLED_CHECK=0
				    FOUND_AN_ENABLED_HIBERNATION_CHECK=0
			    
				    # Get the remaining capacity.
				    REMAINING=`grep "remaining capacity:" $BATT_STATE | sed  "s/.* \([0-9][0-9]* \).*/\1/" `
				    if [ -z "$REMAINING" ] ; then
					    log "VERBOSE" "Battery does not report remaining charte. Perhaps it is not present?"
					    REMAINING=0
				    fi
				    log "VERBOSE" "Remaining charge: $REMAINING"

				    CAPACITY=`grep "design capacity:" $BATT_INFO | sed  "s/.* \([0-9][0-9]* \).*/\1/" `
				    if [ -z "$CAPACITY" ] ; then
					    log "VERBOSE" "Battery does not report capacity. Perhaps it is not present?"
					    CAPACITY=0
				    fi
				    log "VERBOSE" "Design capacity: $CAPACITY"

				    # Check the charge percentage
				    if [ "$MINIMUM_BATTERY_CHARGE_PERCENT" -ne 0 ] ; then
					    FOUND_AN_ENABLED_CHECK=1
					    if [ "$CAPACITY" -eq 0 ] ; then
						    log "MSG" "WARNING: Battery does not report a design capacity. Minimum battery"
						    log "MSG" "charge checking does not work without a design capacity."
						    ENOUGH_CHARGE=1
					    elif [ "$(($REMAINING * 100 / $CAPACITY))" -ge "$MINIMUM_BATTERY_CHARGE_PERCENT" ] ; then
						    ENOUGH_CHARGE=1
					    fi
				    fi
				    if [ "$AUTO_HIBERNATION_BATTERY_CHARGE_PERCENT" -ne 0 ] ; then
					    FOUND_AN_ENABLED_HIBERNATION_CHECK=1
					    if [ "$CAPACITY" -eq 0 ] ; then
						    log "MSG" "WARNING: Battery does not report a design capacity. Auto hibernation"
						    log "MSG" "does not work without a design capacity."
						    ENOUGH_CHARGE=1
					    elif [ "$(($REMAINING * 100 / $CAPACITY))" -ge "$AUTO_HIBERNATION_BATTERY_CHARGE_PERCENT" ] ; then
						    ENOUGH_CHARGE_TO_PREVENT_HIBERNATION=1
					    fi
				    fi

				    #
				    # Fallback: hard values.
				    #
				    # Determine the reporting unit.
				    IN_MAH=0
				    IN_MWH=0
				    if ( grep -q mWh $BATT_INFO ) ; then
					    IN_MWH=1
				    elif ( grep -q mAh $BATT_INFO ) ; then
					    IN_MAH=1
				    fi
			    
				    if [ "$IN_MAH" -ne 0 ] ; then
					    if [ "$MINIMUM_BATTERY_CHARGE_MAH" -ne 0 ] ; then
						    FOUND_AN_ENABLED_CHECK=1
						    if [ "$REMAINING" -ge "$MINIMUM_BATTERY_CHARGE_MAH" ] ; then
							    ENOUGH_CHARGE=1
						    fi
					    fi
					    if [ "$AUTO_HIBERNATION_BATTERY_CHARGE_MAH" -ne 0 ] ; then
						    FOUND_AN_ENABLED_HIBERNATION_CHECK=1
						    if [ "$REMAINING" -ge "$AUTO_HIBERNATION_BATTERY_CHARGE_MAH" ] ; then
							    ENOUGH_CHARGE_TO_PREVENT_HIBERNATION=1
						    fi
					    fi
				    elif [ "$IN_MWH" -ne 0 ] ; then
					    if [ "$MINIMUM_BATTERY_CHARGE_MWH" -ne 0 ] ; then
						    FOUND_AN_ENABLED_CHECK=1
						    if [ "$REMAINING" -ge "$MINIMUM_BATTERY_CHARGE_MWH" ] ; then
							    ENOUGH_CHARGE=1
						    fi
					    fi
					    if [ "$AUTO_HIBERNATION_BATTERY_CHARGE_MWH" -ne 0 ] ; then
						    FOUND_AN_ENABLED_HIBERNATION_CHECK=1
						    if [ "$REMAINING" -ge "$AUTO_HIBERNATION_BATTERY_CHARGE_MWH" ] ; then
							    ENOUGH_CHARGE_TO_PREVENT_HIBERNATION=1
						    fi
					    fi
				    else
					    log "ERR" "Failed to determine battery charge. Battery charge units are not in"
					    log "ERR" "mWh or mAh."
				    fi
			    
				    CAP_STATE=`sed -r 's/^capacity state:\s*(.*)\s*$/\1/;t;d' "$BATT_STATE"`
				    if [ "$DISABLE_LAPTOP_MODE_ON_CRITICAL_BATTERY_LEVEL" -ne 0 ] ; then
					    if [ "$CAP_STATE" = "critical" ] ; then				
						    # Restore the state we had before checking this battery, so that
						    # this battery does not count as having enough charge.
						    ENOUGH_CHARGE=$PREV_ENOUGH_CHARGE
					    elif [ "$FOUND_AN_ENABLED_CHECK" -eq 0 ] ; then
						    # This is the only check that is enabled. In that case a non-critical
						    # battery level counts as "enough". (If we would count non-critical
						    # battery levels as enough *always*, then the other settings would
						    # have no effect; this is only a final fallback.)
						    ENOUGH_CHARGE=1
					    fi
				    fi
				    if [ "$AUTO_HIBERNATION_ON_CRITICAL_BATTERY_LEVEL" -ne 0 ] ; then
					    if [ "$CAP_STATE" = "critical" ] ; then				
						    ENOUGH_CHARGE_TO_PREVENT_HIBERNATION=$PREV_ENOUGH_CHARGE_TO_PREVENT_HIBERNATION
					    elif [ "$FOUND_AN_ENABLED_HIBERNATION_CHECK" -eq 0 ] ; then
						    ENOUGH_CHARGE_TO_PREVENT_HIBERNATION=1
					    fi
				    fi
			    else
				    log "VERBOSE" "Battery is not present."
			    fi
		    done
	    else
		    ENOUGH_CHARGE=1
		    ENOUGH_CHARGE_TO_PREVENT_HIBERNATION=1
		    log "VERBOSE" "Not on AC and could not check battery state -- data loss sensitive features stay enabled and auto-hibernation will not work."
	    fi
	    if [ "$ENABLE_AUTO_HIBERNATION" -ne 0 -a "$ENOUGH_CHARGE_TO_PREVENT_HIBERNATION" -eq 0 ] ; then
		    log "VERBOSE" "None of the batteries have a charge above the auto-hibernation level."
		    log "VERBOSE" "Starting hibernation."
		    if [ -x $HIBERNATE_COMMAND ]; then
			    $HIBERNATE_COMMAND
		    elif [ -f /sys/power/state ]; then
			    grep -q disk /sys/power/state && echo disk > /sys/power/state
		    fi

		    # Don't continue -- if things are configured correctly, then we
		    # will be called on resume.
		    exit 0			
	    fi
	    if [ "$ENOUGH_CHARGE" -eq 0 ] ; then
		    log "VERBOSE" "None of the batteries have a charge above the minimum level."
		    log "VERBOSE" "Deactivating data loss sensitive features."
		    ACTIVATE_WITH_POSSIBLE_DATA_LOSS=0
	    fi
    fi

    if [ "$INIT" -eq 0 ] ; then
	    log "MSG" "Laptop mode "
    fi

    # WAS_ACTIVE is used later on. If there is no /var/run/laptop-mode-tools/state, then
    # we know that laptop mode wasn't active before.
    WAS_ACTIVE=0
    log "VERBOSE" "Checking if desired state is different from current state."
    if [ -f /var/run/laptop-mode-tools/state ] ; then
	    read WAS_ACTIVE WAS_ON_AC WAS_ACTIVATE_WITH_POSSIBLE_DATA_LOSS WAS_STATE < /var/run/laptop-mode-tools/state
	    if [ "$WAS_STATE" != "" ] ; then
		    if [ "$WAS_ACTIVE" -eq "$ACTIVATE" -a "$WAS_ON_AC" -eq "$ON_AC" -a "$WAS_ACTIVATE_WITH_POSSIBLE_DATA_LOSS" -eq "$ACTIVATE_WITH_POSSIBLE_DATA_LOSS" -a "$WAS_STATE" = "$STATE" -a "$FORCE" -eq 0 ] ; then
			    if [ "$WAS_ACTIVE" -eq 1 ] ; then
				    log "MSG" "$STATE, active [unchanged]"
				    if [ "$ACTIVATE_WITH_POSSIBLE_DATA_LOSS" -eq 0 ] ; then
					    log "MSG" " (Data-loss sensitive features disabled.)"
				    fi
			    else
				    log "MSG" "$STATE, not active [unchanged]"
			    fi
			    exit 0
		    fi
	    fi
    else
	    log "VERBOSE" "/var/run/laptop-mode-tools/state does not exist, no previous state."
    fi
    echo "$ACTIVATE $ON_AC $ACTIVATE_WITH_POSSIBLE_DATA_LOSS $STATE" > /var/run/laptop-mode-tools/state

    if [ "$ACTIVATE" -eq 1 ] ; then
	    log "MSG" "$STATE, active"
	    if [ "$ACTIVATE_WITH_POSSIBLE_DATA_LOSS" -eq 0 ] ; then
		    log "MSG" " (Data-loss sensitive features disabled.)"
	    fi
    else
	    log "MSG" "$STATE, not active"
    fi





    # Finally, call laptop-mode-tools modules. The modules can use the settings
    # from the config files, but they may NOT assume the settings actually exist,
    # as no defaults have been given for them.

    # Note that the /usr/local/lib path is deprecated.
    export FORCE STATE ON_AC ACTIVATE ACTIVATE_WITH_POSSIBLE_DATA_LOSS KLEVEL KMINOR WAS_ACTIVE LM_VERBOSE DEVICES
    for SCRIPT in /usr/share/laptop-mode-tools/modules/* /usr/local/lib/laptop-mode-tools/modules/* /usr/local/share/laptop-mode-tools/modules/* /etc/laptop-mode/modules/* ; do
	    if [ -z "$MODULES" ] ; then
		    # If a module list has not been provided, execute all modules
		    EXECUTE_SCRIPT=1
	    else
		    # If a module list has been provided, execute only the listed
		    # modules.
		    EXECUTE_SCRIPT=0
		    for MODULE in $MODULES; do
			    # Attempt to remove the module name from the end of the
			    # full script path.  If the module name matches the
			    # script, the name will be removed from the end of the
			    # full file path, leaving the path to the script.  If
			    # there was not a match made, the module name would not
			    # be removed from the path, and $PATH_TO_SCRIPT would
			    # be the same as $SCRIPT.
			    PATH_TO_SCRIPT=${SCRIPT%%$MODULE}
			    # Execute the script if a match was found (module name
			    # was removed from the script path, making it shorter.
			    if [ $PATH_TO_SCRIPT != $SCRIPT ] ; then
				    EXECUTE_SCRIPT=1
			    fi
		    done
	    fi

	    if [ -x "$SCRIPT" -a $EXECUTE_SCRIPT -eq 1 ] ; then
		    log "VERBOSE" "Invoking module $SCRIPT."
		    SCRIPT_DEBUG=$SCRIPT; # We do this because in start-stop-programs module a $SCRIPT variable is used. That
					  # changes the whole meaning when passed to disableDebug ()
		    enableDebug $SCRIPT_DEBUG;
		    (. $SCRIPT) &
		    disableDebug $SCRIPT_DEBUG;
	    else
		    log "VERBOSE" "Module $SCRIPT is not executable or is to be skipped."
	    fi
    done

    exit 0

    # This fi closes the if for "readconfig". If I would have indented this one
    # I would have indented the whole file. :)
}

lmt_load_config "$@";

# We do a special run of battery polling daemon here so that it does not get
# plagued by the lock. We need the polling daemon to be independent of the REQ and INVOC locks.
# Polling daemon should *only* have inherited a lock on LMT_BATTPOLL_LOCK. Any other inheritance
# for it is a BUG.
if [ x$ENABLE_BATTERY_LEVEL_POLLING = x1 ] && [ x$BLACKLIST_IN_FLOCK = x1 ]; then
	log "VERBOSE" "Battery level polling is enabled."
	if [ x$ON_AC = x1 ] ; then
		log "VERBOSE" "On AC, stopping the polling daemon."

		# In AC mode we disable the polling daemon.
		killall -q lm-polling-daemon
	elif [ x$ON_AC = x0 ]; then
		exec 7>$LMT_BATTPOLL_LOCK;
		if $FLOCK -n -x -w 1 7; then
			log "VERBOSE" "Lock acquisition on descriptor 7 succeeded with pid $$";
			if ! pidof -x lm-polling-daemon ; then
				log "VERBOSE" "On battery and there was no polling daemon yet, starting the polling daemon."
			
				# If there is no polling daemon, we start one.
				/usr/share/laptop-mode-tools/module-helpers/lm-polling-daemon < /dev/null > /dev/null 2> /dev/null &
			fi
		else
			log "VERBOSE" "Lock acquisition on descriptor 7 failed with pid $$";
		fi

		# If we are called from the init script with the stop command, lm-polling-daemon
		# should be killed.
		if [ x$INITSCRIPT_STOP = x1 ]; then
			log "VERBOSE" "On Battery, but init script stop is called. Killing lm-polling-daemon"
			killall -q lm-polling-daemon
		fi
	else
		log "ERR" "Unknown ON_AC state: $ON_AC";
	fi
else
	log "VERBOSE" "Battery level polling is disabled."
fi

lock_retry ()
{
if $FLOCK -n -x -w 1 8; then
	i=10;
	while [ $i -ge 1 ]
	do
	    	$FLOCK -x -w 1 9 && lmt_main_function "$@" && break;
		log "VERBOSE" "Couldn't acquire lock on descriptor 9 in lock_retry(). Retrying.... PID is $$\n"
	    	i=$(( $i - 1 ))
	done
else
	exit 0;
fi
}


# Check and acquire locks and then exec.
exec 8>$LMT_REQ_LOCK;
if $FLOCK -n -x -w 1 8; then
	log "VERBOSE" "Prelim lock acquisition on descriptor 8 with pid $$";
else
	log "VERBOSE" "Couldn't acquire prelim lock on descriptor 8 with pid $$";
fi


exec 9>$LMT_INVOC_LOCK;
if $FLOCK -n -x -w 1 9; then
	$FLOCK -u 8; ## Release the invoc lock;
	log "VERBOSE" "Prelim lock acquisition on descriptor 9 with pid $$";
	log "VERBOSE" "Now invoking lmt_main_function with arguments -- $@";
	lmt_main_function "$@";
else
	log "VERBOSE" "Couldn't acquire prelim lock on descriptor 9 with pid $$";
	log "VERBOSE" "Now invoking lock_retry with arguments -- $@";
	lock_retry "$@";
fi

$FLOCK -u 8;
$FLOCK -u 9;


exit 0;
