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607 lines
24 KiB
607 lines
24 KiB
#!/usr/bin/python
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# -*- coding: UTF-8 -*-
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###########################################################################
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# Copyright (C) 2006 by Sebastian Kügler
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# <sebas@kde.org>
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#
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# Copyright: See COPYING file that comes with this distribution
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#
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###########################################################################
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# An API for changing the powerstate of a notebook
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import dbus
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import dbus.glib
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import os, time
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from dcopext import DCOPClient, DCOPApp # Used for kscreensaver
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import xf86misc
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DEBUG = False
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def debug(msg):
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""" Print debug message to terminal. """
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if DEBUG:
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print msg
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# Default values for actions when battery runs out.
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BATTERY_CRITICAL_MINUTES=5
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# Only do an emergency suspend if charge level percentage is below ...
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CHARGE_LEVEL_THRESHOLD = 10
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isroot = os.environ["USER"] == "root"
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# Send suspend / hibernate commands to HAL or use Sx_COMMANDS
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SUSPEND_USE_HAL = True
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# Show the cpu frequency widgets in the tooltip?
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SHOW_CPUFREQ = True
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# Command to initiate suspend-to-disk when not using HAL
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S4_COMMAND = "/usr/local/bin/hibernate"
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# Command to initiate suspend-to-ram when not using HAL
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S3_COMMAND = "/usr/local/bin/s2ram"
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# Override isLaptop method
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#IS_LAPTOP = True
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def _readValue(filename, line=0):
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""" Reads a single value from the first line of a file. """
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fhandle = open(filename)
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value = fhandle.readlines()[line][:-1]
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fhandle.close()
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return value
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class PowerManage:
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""" Class providing low-level power managerment functionality. """
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def __init__(self):
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# (En|Dis)able using hdparm to set disk timeout
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self.USE_HDPARM = True
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# (En|Dis)able using laptop_mode to make the disk spin up less often
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self.USE_LAPTOP_MODE = True
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# (En|Dis)able using cpufreq to control cpu frequency scaling
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self.USE_CPUFREQ = True
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# (En|Dis)able using wireless adapter powermanagement (causes lag in network connection)
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self.USE_WI_PM = True
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# (En|Dis)able using display powermanagement
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self.USE_DPMS = True
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# (En|Dis)able using display brightness switching
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self.USE_DISPLAY = True
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# (En|Dis)able screensaver blankonly
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self.SCREENSAVER_BLANKONLY = True
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try:
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xg = xf86misc.XF86Server()
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self.xscreen = xg.getDefaultScreen()
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except xf86misc.XF86Error:
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print "Problem connecting to X server for idletime detection."
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# Currently only used in the test method
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self.display_dark = 0.5
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self.display_light = 1
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# Some status initialisations
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self.lowBatteryState = False
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self.warningBatteryState = False
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self.criticalBatteryState = False
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self.criticalBatteryState = False
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self.lidClosedState = False
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# What does HAL support on this machine
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self.hasBrightness = False
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self.hasAC = False
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self.hasLid = False
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self.hasBattery = False
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self.hasCpuFreqGovernors = False
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# Used to track if the previous check reported a battery to determine
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# if we want to fire a notice "battery removed|plugged in"
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self.wasOnBattery = False
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self._initHAL()
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self._initBrightness()
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self._initBattery()
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self._initAc()
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self._initLid()
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self._checkSuspend()
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self._checkCpuCapabilities()
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self._findDisks()
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def checkHAL(self):
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""" Handle HAL and DBus restarts """
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try:
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self.hal_manager.FindDeviceByCapability("")
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except dbus.DBusException, e:
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if str(e) == 'org.freedesktop.DBus.Error.Disconnected: Connection is closed' \
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or str(e) == 'org.freedesktop.DBus.Error.Disconnected: Connection was disconnected before a reply was received':
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# DBus doesn't support on-the-fly restart
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print "connection with DBus lost, please restart the display manager"
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return
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if os.system("ps aux|grep [h]ald-runner") == 0:
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print "connection with HAL lost, trying to reconnect"
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self._initHAL()
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self._initBrightness()
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self._initBattery()
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self._initAc()
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self._initLid()
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self._checkSuspend()
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self._checkCpuCapabilities()
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else:
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print "HAL is not running"
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def isLaptop(self):
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""" Detect if system is laptop. """
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try:
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return IS_LAPTOP
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except NameError:
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pass
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self.computerObject = self.bus.get_object("org.freedesktop.Hal",
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u'/org/freedesktop/Hal/devices/computer')
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properties = self.computerObject.GetAllProperties(dbus_interface="org.freedesktop.Hal.Device")
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# formfactor sometimes (ppc) also reports "unknown" for laptops
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# workaround: consider laptop anything with primary battery (see LP #64053)
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return properties["system.formfactor"] == "laptop" or self.hasBattery
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def _findDisks(self):
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""" Scan /sys/block for non-removable and non-ramdisks, used for hdparm actions,
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currently not implemented in the powermanager frontend. """
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self.disks = []
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blk_path = "/sys/block/"
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for d in os.listdir(blk_path):
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# No RAM disks, no DM-RAID
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if d.startswith("ram") or d.startswith("dm"):
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continue
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fhandle = open(blk_path+d+"/removable")
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if fhandle.readlines()[0][:-1] == "0":
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self.disks.append(d)
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debug("Detected disks: "+" ".join(self.disks))
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def onBattery(self):
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""" Find out if we're on AC or on battery using HAL. """
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if not self.hasAC:
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print "No AC adapter found - assume that we are on batteries."
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return False
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properties = self.acObject.GetAllProperties(dbus_interface="org.freedesktop.Hal.Device")
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if properties.has_key("ac_adapter.present"):
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return not properties['ac_adapter.present']
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else:
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print "Error: ac_adapter has no property \"present\""
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return False
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def _initBattery(self):
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""" Looks for a battery in HAL. """
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batteryDevices = self.hal_manager.FindDeviceByCapability("battery")
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self.batteries = {}
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self.batteryIsPresent = {}
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numBatt = 0
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for batt in batteryDevices:
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battObj = self.bus.get_object("org.freedesktop.Hal", batt)
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properties = battObj.GetAllProperties(dbus_interface="org.freedesktop.Hal.Device")
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if properties['battery.type'] != "primary":
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continue
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self.batteries[numBatt] = battObj
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self.batteryIsPresent[numBatt] = properties['battery.present']
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numBatt += 1
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if numBatt > 0:
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self.hasBattery = True
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else:
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self.hasBattery = False
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print "No battery found."
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def getBatteryState(self,batt):
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""" Read battery status from HAL and return
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(battery state, charge percentage, remaining seconds).
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"""
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try:
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properties = self.batteries[batt].GetAllProperties(dbus_interface="org.freedesktop.Hal.Device")
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except dbus.DBusException:
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print "problem getting battery state from dbus."
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return "not present", 0, 0, 0, 0, 0
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if not properties['battery.present']:
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return "not present", 0, 0, 0, 0, 0
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else:
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current = full = level = remain = rate = 0
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if properties.has_key("battery.charge_level.current"):
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current = properties["battery.charge_level.current"]
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if properties.has_key("battery.charge_level.last_full"):
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full = properties["battery.charge_level.last_full"]
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if properties["battery.rechargeable.is_charging"]:
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state = "charging"
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elif properties["battery.rechargeable.is_discharging"]:
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if self.onBattery():
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state = "discharging"
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else:
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state = "charged"
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elif not properties["battery.rechargeable.is_discharging"] \
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and not properties["battery.rechargeable.is_charging"]:
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if current == 0:
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state = "empty"
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else:
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state = "charged"
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else:
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print "Unknown battery state ..."
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# Sometimes, HAL doesn't report the percentage, but we can compute that ourselves anyway
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if properties.has_key("battery.charge_level.percentage"):
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level = properties["battery.charge_level.percentage"]
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elif current > 0 and full > 0:
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level = current / full
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if state in ("charging","discharging"):
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if properties.has_key("battery.remaining_time"):
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remain = properties["battery.remaining_time"]
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if properties.has_key("battery.charge_level.rate"):
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rate = properties["battery.charge_level.rate"]
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return state, level, remain, rate, current, full
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def showInfo(self):
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""" Outputs some random information to show that it does not work yet. """
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print "OnBattery:", self.onBattery()
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print "CPUs:", len(self.cpus)
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def _initHAL(self):
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""" Initialise HAL client to be used later. """
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self.bus = dbus.SystemBus()
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hal_manager_obj = self.bus.get_object("org.freedesktop.Hal", "/org/freedesktop/Hal/Manager")
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self.hal_manager = dbus.Interface(hal_manager_obj, "org.freedesktop.Hal.Manager")
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def _initLid(self):
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""" Find out if there's a Lid device. """
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lidDevice = self.hal_manager.FindDeviceStringMatch("button.type", "lid")
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if len(lidDevice) >= 1:
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self.hasLid = True
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self.lidObject = self.bus.get_object("org.freedesktop.Hal" ,lidDevice[0])
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def _initAc(self):
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""" Search HAL for detecting if power is plugged in. """
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acDevice = self.hal_manager.FindDeviceByCapability("ac_adapter")
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if len(acDevice) >= 1:
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self.hasAC = True
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self.acObject = self.bus.get_object("org.freedesktop.Hal" ,acDevice[0])
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def _checkSuspend(self):
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""" Ask HAL whether we can suspend / hibernate. """
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if SUSPEND_USE_HAL:
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self.computerObject = self.bus.get_object("org.freedesktop.Hal",
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u'/org/freedesktop/Hal/devices/computer')
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properties = self.computerObject.GetAllProperties(
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dbus_interface="org.freedesktop.Hal.Device")
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self.canSuspend = properties["power_management.can_suspend"]
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self.canHibernate = properties["power_management.can_hibernate"]
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else:
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self.canSuspend = self.canHibernate = True
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def _initBrightness(self):
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""" Search HAL for a screen with brightness controls."""
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brightnessDevice = self.hal_manager.FindDeviceByCapability("laptop_panel")
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if len(brightnessDevice) >= 1:
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self.hasBrightness = True
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self.brightnessObject = self.bus.get_object("org.freedesktop.Hal", brightnessDevice[0])
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self.brightness_properties = self.brightnessObject.GetAllProperties(
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dbus_interface="org.freedesktop.Hal.Device")
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try:
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self.brightness_levels = self.brightness_properties[u'laptop_panel.num_levels']
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except KeyError,e:
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self.hasBrightness = False
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return 0 # Really don't know what to do here, but don't crash in any case.
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try:
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self.old_b = self.brightness_levels[-1] # Setting cached brightness value to brightest
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except TypeError,e:
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return 0 # Really don't know what to do here, but don't crash in any case.
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def getBrightness(self):
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""" Read brightness from HAL. """
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if not self.hasBrightness:
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debug("Brightness setting not supported.")
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return
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try:
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b = self.brightnessObject.GetBrightness(
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dbus_interface="org.freedesktop.Hal.Device.LaptopPanel")
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except dbus.DBusException, e:
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# Sometimes, right after resume, the HAL call
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# fails, in that case, we return the last value
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# and hope that it goes well next time.
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print "Warning: in getBrightness(): ", e
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# try and return the old brightness setting, but don't die in any case:
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try:
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return self.old_b
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except AttributeError, errmsg:
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return
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self.old_b = b
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return b
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def adjustBrightness(self, level):
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""" Adjust the brightness via HAL. """
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if not self.hasBrightness:
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debug("Brightness setting not supported.")
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return
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try:
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self.brightnessObject.SetBrightness(level,
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dbus_interface="org.freedesktop.Hal.Device.LaptopPanel")
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except dbus.DBusException, e:
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print e
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def _checkCpuCapabilities(self):
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""" Find out the number of CPUs / cores, check which governors are avaible."""
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cpufreq_dir = "/sys/devices/system/cpu"
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self.cpus = []
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for cpu in os.listdir(cpufreq_dir):
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if cpu.startswith('cpu') and cpu != 'cpuidle':
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self.cpus.append(cpu)
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self.cpus.sort()
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# Map our policies to cpufreq governors.
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self.cpu_policy = {}
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self.cpu_policy['dynamic/ac'] = []
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self.cpu_policy['dynamic/battery'] = []
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self.cpu_policy['powersave'] = []
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self.cpu_policy['performance'] = []
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try:
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comp_obj = self.bus.get_object('org.freedesktop.Hal', '/org/freedesktop/Hal/devices/computer')
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self.cpufreq = dbus.Interface(comp_obj, 'org.freedesktop.Hal.Device.CPUFreq')
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self.governor_available = self.cpufreq.GetCPUFreqAvailableGovernors()
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except dbus.DBusException:
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return
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self.hasCpuFreqGovernors = True
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if 'ondemand' in self.governor_available:
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self.cpu_policy['dynamic/ac'].append('ondemand')
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self.cpu_policy['dynamic/battery'].append('ondemand')
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if 'conservative' in self.governor_available:
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self.cpu_policy['dynamic/ac'].append('conservative')
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self.cpu_policy['dynamic/battery'].insert(0,'conservative')
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if 'userspace' in self.governor_available:
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self.cpu_policy['dynamic/ac'].append('userspace')
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self.cpu_policy['dynamic/battery'].append('userspace')
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if 'powersave' in self.governor_available:
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self.cpu_policy['powersave'].append('powersave')
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if 'performance' in self.governor_available:
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self.cpu_policy['performance'].append('performance')
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def getSupportedCpuPolicies(self):
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""" Report a list of supported CPU policies """
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policies = []
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if len(self.cpu_policy['dynamic/ac']) > 0:
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policies.append('dynamic')
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if len(self.cpu_policy['powersave']) > 0:
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policies.append('powersave')
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if len(self.cpu_policy['performance']) > 0:
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policies.append('performance')
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return policies
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def getCpuPolicy(self):
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""" Translate current CPU frequency governor into policy """
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if not self.USE_CPUFREQ or not self.hasCpuFreqGovernors:
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return ""
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gov = self.cpufreq.GetCPUFreqGovernor()
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for policy in self.cpu_policy.keys():
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if gov in self.cpu_policy[policy]:
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return policy.split('/')[0] # strip ac or battery off
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return gov ## return as-is - no conversion
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def setCpuPolicy(self,policy):
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""" Using cpufreq governors. Mode is powersave, dynamic or performance. We're assuming that
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the available governors are the same for all CPUs. This method changes the cpufreq
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governor on all CPUs to a certain policy."""
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if not self.USE_CPUFREQ or not self.hasCpuFreqGovernors:
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return False
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if policy == "dynamic":
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if self.onBattery():
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policy = "dynamic/battery"
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else:
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policy = "dynamic/ac"
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for gov in self.cpu_policy[policy]:
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try:
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self.cpufreq.SetCPUFreqGovernor(gov)
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return True
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except dbus.DBusException:
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pass
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return False # no of governor worked
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def cpuIsOnline(self,cpu):
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""" Check if cpu is online. CPU0 is always online, CPU1 might be unplugged. Since
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/sys/devices/system/cpu/$cpu/cpufreq is not readable for normal users, we just
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check for the cpufreq subdir (which is where it's really needed anyway).
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"""
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if cpu == "cpu0": return True
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else: return os.path.isdir("/sys/devices/system/cpu/"+cpu+"/cpufreq")
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def getCpuState(self,cpu):
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""" Reads the status of a CPU from /sys. """
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state = {}
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state['online'] = self.cpuIsOnline(cpu)
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if not state['online']:
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debug("getCpuState: "+cpu+" is offline")
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return state
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try:
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state['cpu'] = cpu
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state['cur'] = int(_readValue("/sys/devices/system/cpu/"+cpu+"/cpufreq/scaling_cur_freq"))/1000
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state['governor'] = _readValue("/sys/devices/system/cpu/"+cpu+"/cpufreq/scaling_governor")
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state['driver'] = _readValue("/sys/devices/system/cpu/"+cpu+"/cpufreq/scaling_driver")
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state['steps'] = []
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freqs = _readValue("/sys/devices/system/cpu/"+cpu+"/cpufreq/scaling_available_frequencies")
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except IOError:
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# CPUFREQ has gone away, let's disable it.
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state['online'] = False
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return state
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for v in freqs.split():
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state['steps'].append(int(v)/1000)
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state['max'] = max(state['steps'])
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state['min'] = min(state['steps'])
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debug(state)
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return state
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def getLidClosedState(self):
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""" Returns True if the lid is currently closed, or False if it isn't. """
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try:
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properties = self.lidObject.GetAllProperties(dbus_interface="org.freedesktop.Hal.Device")
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return properties["button.state.value"]
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except (KeyError, dbus.DBusException):
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return False
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def setPowerSave(self, state):
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# No SetPowerSave in Ubuntu's HAL
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try:
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self.computerObject.SetPowerSave(state,
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dbus_interface="org.freedesktop.Hal.Device.SystemPowerManagement")
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except dbus.DBusException, e:
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print "Warning: While setting SystemPowerManagement to ", state, ": ",
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print e
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def blankScreen(self):
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""" Call dpms to switch off the screen immediately. """
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os.system('xset dpms force standby')
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def setScreensaverBlankOnly(self,blankonly):
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""" Switches a screensaver to blankonly, so cpu hungry screensavers will not drain the poor
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battery."""
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# create a new DCOP-Client:
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client = DCOPClient()
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# connect the client to the local DCOP-server:
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client.attach()
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# create a DCOP-Application-Object to talk to amarok:
|
|
kdesktop = DCOPApp('kdesktop', client)
|
|
# call a DCOP-function:
|
|
ok, foo = kdesktop.KScreensaverIface.setBlankOnly(blankonly)
|
|
if not ok:
|
|
debug("Failed to set kdesktop screensaver to blankonly.")
|
|
return False
|
|
return True
|
|
|
|
def getIdleSeconds(self):
|
|
""" Get idle seconds from X server. """
|
|
return self.xscreen.getIdleSeconds()
|
|
|
|
def resetIdleSeconds(self):
|
|
""" Reset idle seconds. """
|
|
return self.xscreen.resetIdleSeconds()
|
|
|
|
def test(self):
|
|
""" Try all kinds of stuff and see what breaks."""
|
|
print "Trying to adjust brightness ..."
|
|
bright = self.getBrightness()
|
|
self.adjustBrightness(2)
|
|
time.sleep(1)
|
|
self.adjustBrightness(bright)
|
|
print " ... OK."
|
|
|
|
if self.USE_CPUFREQ:
|
|
print "Reading speeds from cpufreq..."
|
|
for cpu in self.cpus:
|
|
print self.getCpuState(cpu)
|
|
print "Report supported cpufreq policies..."
|
|
for policy in self.cpu_policy.keys():
|
|
print "Policy:", policy, "=", self.cpu_policy[policy]
|
|
|
|
print "Trying all cpufreq policies ..."
|
|
orig_pol = self.getCpuPolicy()
|
|
for pol in self.cpu_policy.keys():
|
|
print ". ", pol
|
|
self.setCpuPolicy(pol)
|
|
self.setCpuPolicy(orig_pol)
|
|
print "... OK."
|
|
else:
|
|
print "Skipping CPUFREQ: USE_CPUFREQ = False"
|
|
|
|
if self.SCREENSAVER_BLANKONLY:
|
|
if self.setScreensaverBlankOnly(True):
|
|
debug("Manipulating screensaver seems to work well.")
|
|
else:
|
|
debug("Manipulating screensaver seems broken.")
|
|
|
|
if isroot:
|
|
print "Trying to use Disk powermanagement and laptop_mode"
|
|
self.setDiskPM(True)
|
|
time.sleep(1)
|
|
self.setDiskPM(False)
|
|
print "...OK"
|
|
else:
|
|
print "Skipping DiskPM, not root."
|
|
|
|
if self.hasLid:
|
|
if self.getLidClosedState():
|
|
print "Lid is closed."
|
|
else:
|
|
print "Lid is currently open."
|
|
|
|
def setDiskPM(self,on=True):
|
|
""" Switches on laptop_mode and sets disks to advanced powermanagement."""
|
|
if self.USE_LAPTOP_MODE:
|
|
# Check if laptop_mode exists:
|
|
laptop_mode = "/proc/sys/vm/laptop_mode"
|
|
if not os.path.isfile(laptop_mode):
|
|
self.USE_LAPTOP_MODE = False
|
|
debug("Laptop mode not supported, no "+laptop_mode)
|
|
else:
|
|
fhandle = open(laptop_mode,"w")
|
|
if on: val = 1
|
|
else: val = 0
|
|
fhandle.write(str(val))
|
|
fhandle.close()
|
|
|
|
if self.USE_HDPARM:
|
|
# Set disks to advanced PM
|
|
for disk in self.disks:
|
|
if on:
|
|
# Switch on advanced powermanagement
|
|
cmd = "hdparm -B1 /dev/"+disk+" > /dev/null"
|
|
else:
|
|
# Switch off advanced powermanagement
|
|
cmd = "hdparm -B255 /dev/"+disk+" > /dev/null"
|
|
if os.system(cmd) != 0:
|
|
self.USE_HDPARM = False
|
|
print "Switching advanced powermanagement failed, not using hdparm anymore"
|
|
|
|
def suspend(self):
|
|
""" Run a suspend command, either via HAL or script. """
|
|
if SUSPEND_USE_HAL:
|
|
try:
|
|
self.computerObject.Suspend(0, dbus_interface="org.freedesktop.Hal.Device.SystemPowerManagement")
|
|
except dbus.DBusException:
|
|
pass #we get a DBusException: No reply within specified time
|
|
else:
|
|
self._sleepMode(S3_COMMAND)
|
|
|
|
def hibernate(self):
|
|
""" Implements suspend to disk (S4). """
|
|
if SUSPEND_USE_HAL:
|
|
try:
|
|
self.computerObject.Hibernate(dbus_interface="org.freedesktop.Hal.Device.SystemPowerManagement")
|
|
except dbus.DBusException:
|
|
pass #we get a DBusException: No reply within specified time
|
|
else:
|
|
self._sleepMode(S4_COMMAND)
|
|
|
|
def _sleepMode(self, command):
|
|
""" Send the system into S3 or S4 not using HAL. """
|
|
debug("Initiating a sleep cycle")
|
|
if os.system(command) != 0:
|
|
print "sleepmode failed. ("+command+")"
|
|
return False
|
|
debug("Everything is dandy")
|
|
return True
|
|
|
|
def shutdown(self):
|
|
""" Shutdown the system via HAL. """
|
|
self.computerObject.Shutdown(dbus_interface="org.freedesktop.Hal.Device.SystemPowerManagement")
|
|
|
|
|
|
if __name__ == "__main__":
|
|
""" Run some tests, used for debugging."""
|
|
pman = PowerManage()
|
|
pman.showInfo()
|
|
pman.test()
|
|
|