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Fixing firstboot module

This commit is contained in:
Neil Horman 2009-06-23 18:36:27 +00:00
parent 0376606424
commit 9487d3dfb1
2 changed files with 290 additions and 278 deletions
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563
firstboot_kdump.py
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@ -3,8 +3,8 @@
# Copyright 2006 Red Hat, Inc.
# Author: Jarod Wilson <jwilson@redhat.com>
# Contributors:
# Neil Horman <nhorman@redhat.com>
# Dave Lehman <dlehman@redhat.com>
# Neil Horman <nhorman@redhat.com>
# Dave Lehman <dlehman@redhat.com>
#
#
# This program is free software; you can redistribute it and/or modify
@ -31,337 +31,346 @@ import os.path
import time
import gtk
import gobject
import functions
import commands
import rhpl.executil as executil
from firstboot import start_process
from firstboot.config import *
from firstboot.constants import *
from firstboot.functions import *
from firstboot.module import *
from rhpl.translate import _, N_
from rhpl import translate
translate.textdomain("firstboot")
class moduleClass(Module):
def __init__(self):
Module.__init__(self)
self.priority = 100
self.sidebarTitle = N_("Kdump")
self.title = N_("Kdump")
class childWindow:
# runPriority determines the order in which this module runs in firstboot
runPriority = 70
moduleName = _("Kdump")
windowName = moduleName
needsReboot = False
# runPriority determines the order in which this module runs in firstboot
runPriority = 70
moduleName = _("Kdump")
windowName = moduleName
needsReboot = False
# possible bootloaders we'll need to adjust
# bootloader : (config file, kdump offset)
bootloaders = { "grub" : ("/boot/grub/grub.conf", 16),
"yaboot" : ("/boot/etc/yaboot.conf", 32),
"elilo" : ("/boot/efi/EFI/redhat/elilo.conf", 256) }
bootloader = None
offset = 0
# possible bootloaders we'll need to adjust
# bootloader : (config file, kdump offset)
bootloaders = { "grub" : ("/boot/grub/grub.conf", 16),
"yaboot" : ("/boot/etc/yaboot.conf", 32),
"elilo" : ("/boot/efi/EFI/redhat/elilo.conf", 256) }
bootloader = None
offset = 0
# list of architectures without kdump support
unsupportedArches = [ "ppc", "s390", "s390x", "i386", "i586" ]
# list of architectures without kdump support
unsupportedArches = [ "ppc", "s390", "s390x", "i386", "i586" ]
# list of platforms that have a separate kernel-kdump
kernelKdumpArches = [ "ppc64" ]
kernelKdumpInstalled = False
# list of platforms that have a separate kernel-kdump
kernelKdumpArches = [ "ppc64" ]
kernelKdumpInstalled = False
# toggle sensitivity of kdump config bits
def showHide(self, status):
self.totalMem.set_sensitive(status)
self.kdumpMem.set_sensitive(status)
self.systemUsableMem.set_sensitive(status)
self.labelTotal.set_sensitive(status)
self.labelKdump.set_sensitive(status)
self.labelSys.set_sensitive(status)
self.kdumpEnabled = status
# toggle sensitivity of kdump config bits
def showHide(self, status):
self.totalMem.set_sensitive(status)
self.kdumpMem.set_sensitive(status)
self.systemUsableMem.set_sensitive(status)
self.labelTotal.set_sensitive(status)
self.labelKdump.set_sensitive(status)
self.labelSys.set_sensitive(status)
self.kdumpEnabled = status
def on_enableKdumpCheck_toggled(self, *args):
showHideStatus = self.enableKdumpCheck.get_active()
self.showHide(showHideStatus)
def on_enableKdumpCheck_toggled(self, *args):
showHideStatus = self.enableKdumpCheck.get_active()
self.showHide(showHideStatus)
def updateAvail(self, widget, spin):
self.remMem = self.availMem - spin.get_value_as_int()
self.systemUsableMem.set_text("%s" % self.remMem)
def updateAvail(self, widget, spin):
self.remMem = self.availMem - spin.get_value_as_int()
self.systemUsableMem.set_text("%s" % self.remMem)
def getBootloader(self):
for (name, (conf, offset)) in self.bootloaders.items():
if os.access(conf, os.W_OK):
self.bootloader = name
return self.bootloader
def getBootloader(self):
for (name, (conf, offset)) in self.bootloaders.items():
if os.access(conf, os.W_OK):
self.bootloader = name
return self.bootloader
def launch(self, doDebug = None):
self.doDebug = doDebug
def createScreen(self, doDebug = None):
self.doDebug = doDebug
if doDebug:
print "initializing kdump module"
if doDebug:
print "initializing kdump module"
# What kernel are we running?
self.runningKernel = os.popen("/bin/uname -r").read().strip()
# What kernel are we running?
self.runningKernel = os.popen("/bin/uname -r").read().strip()
# What arch are we running on?
self.arch = os.popen("/bin/uname -m").read().strip()
# What arch are we running on?
self.arch = os.popen("/bin/uname -m").read().strip()
# Check for a xen kernel, kdump doesn't work w/xen just yet...
self.xenKernel = self.runningKernel.find("xen")
# Check for a xen kernel, kdump doesn't work w/xen just yet...
self.xenKernel = self.runningKernel.find("xen")
# Fedora or RHEL?
releaseFile = '/etc/redhat-release'
self.distro = 'rhel'
lines = open(releaseFile).readlines()
for line in lines:
if line.find("Fedora") != -1:
self.distro = 'fedora'
kernelKdumpArchesFC = [ "i686", "x86_64" ]
self.kernelKdumpArches.extend(kernelKdumpArchesFC)
break
# Fedora or RHEL?
releaseFile = '/etc/redhat-release'
self.distro = 'rhel'
lines = open(releaseFile).readlines()
for line in lines:
if line.find("Fedora") != -1:
self.distro = 'fedora'
kernelKdumpArchesFC = [ "i686", "x86_64" ]
self.kernelKdumpArches.extend(kernelKdumpArchesFC)
break
# If we need kernel-kdump, check to see if its already installed
if self.arch in self.kernelKdumpArches:
self.kernelKdump = "/boot/vmlinux-%skdump" % self.runningKernel
if os.access(self.kernelKdump, os.R_OK):
self.kernelKdumpInstalled = True
# If we need kernel-kdump, check to see if its already installed
if self.arch in self.kernelKdumpArches:
self.kernelKdump = "/boot/vmlinux-%skdump" % self.runningKernel
if os.access(self.kernelKdump, os.R_OK):
self.kernelKdumpInstalled = True
# Ascertain how much memory is in the system
memInfo = open("/proc/meminfo").readlines()
self.availMem = 0
for line in memInfo:
if line.startswith("MemTotal:"):
self.availMem = int(line.split()[1]) / 1024
break
# Ascertain how much memory is in the system
memInfo = open("/proc/meminfo").readlines()
self.availMem = 0
for line in memInfo:
if line.startswith("MemTotal:"):
self.availMem = int(line.split()[1]) / 1024
break
# Fix up memory calculations if kdump is already on
cmdLine = open("/proc/cmdline").read()
self.kdumpMem = 0
self.kdumpOffset = 0
self.origCrashKernel = ""
chkConfigStatus=commands.getoutput('/sbin/chkconfig --list kdump')
if chkConfigStatus.find("on") > -1:
self.kdumpEnabled = True
self.kdumpMemInitial = 0
if cmdLine.find("crashkernel") > -1:
crashString = filter(lambda t: t.startswith("crashkernel="),
# Fix up memory calculations if kdump is already on
cmdLine = open("/proc/cmdline").read()
self.kdumpMem = 0
self.kdumpOffset = 0
self.origCrashKernel = ""
chkConfigStatus=commands.getoutput('/sbin/chkconfig --list kdump')
if chkConfigStatus.find("on") > -1:
self.kdumpEnabled = True
self.kdumpMemInitial = 0
if cmdLine.find("crashkernel") > -1:
crashString = filter(lambda t: t.startswith("crashkernel="),
cmdLine.split())[0].split("=")[1]
if self.doDebug:
print "crashString is %s" % crashString
(self.kdumpMem, self.kdumpOffset) = [int(m[:-1]) for m in crashString.split("@")]
self.availMem += self.kdumpMem
self.origCrashKernel = "%dM@%dM" % (self.kdumpMem, self.kdumpOffset)
self.kdumpMemInitial = self.kdumpMem
else:
self.kdumpEnabled = False
self.kdumpMemInitial = 0
self.initialState = self.kdumpEnabled
if self.doDebug:
print "crashString is %s" % crashString
(self.kdumpMem, self.kdumpOffset) = [int(m[:-1]) for m in crashString.split("@")]
self.availMem += self.kdumpMem
self.origCrashKernel = "%dM@%dM" % (self.kdumpMem, self.kdumpOffset)
self.kdumpMemInitial = self.kdumpMem
else:
self.kdumpEnabled = False
self.kdumpMemInitial = 0
self.initialState = self.kdumpEnabled
# Do some sanity-checking and try to present only sane options.
#
# Defaults
lowerBound = 128
minUsable = 256
step = 64
self.enoughMem = True
if self.arch == 'ia64':
# ia64 usually needs at *least* 256M, page-aligned... :(
lowerBound = 256
minUsable = 512
step = 256
elif self.arch == 'ppc64':
# ppc64 often fails w/128M lately, and we want at least 1G
# of RAM for normal use, due to 64k page size... :\
lowerBound = 256
minUsable = 1024
# Do some sanity-checking and try to present only sane options.
#
# Defaults
lowerBound = 128
minUsable = 256
step = 64
self.enoughMem = True
if self.arch == 'ia64':
# ia64 usually needs at *least* 256M, page-aligned... :(
lowerBound = 256
minUsable = 512
step = 256
elif self.arch == 'ppc64':
# ppc64 often fails w/128M lately, and we want at least 1G
# of RAM for normal use, due to 64k page size... :\
lowerBound = 256
minUsable = 1024
upperBound = (self.availMem - minUsable) - (self.availMem % step)
upperBound = (self.availMem - minUsable) - (self.availMem % step)
if upperBound < lowerBound:
self.enoughMem = False
if upperBound < lowerBound:
self.enoughMem = False
# Set spinner to lowerBound unless already set on kernel command line
if self.kdumpMem == 0:
self.kdumpMem = lowerBound
else:
# round down to a multiple of step value
self.kdumpMem = self.kdumpMem - (self.kdumpMem % step)
# Set spinner to lowerBound unless already set on kernel command line
if self.kdumpMem == 0:
self.kdumpMem = lowerBound
else:
# round down to a multiple of step value
self.kdumpMem = self.kdumpMem - (self.kdumpMem % step)
# kdump enable/disable checkbox
self.enableKdumpCheck = gtk.CheckButton("Enable kdump?")
self.enableKdumpCheck.set_alignment(xalign=0, yalign=0)
# kdump enable/disable checkbox
self.enableKdumpCheck = gtk.CheckButton("Enable kdump?")
self.enableKdumpCheck.set_alignment(xalign=0, yalign=0)
# detected total amount of system memory
self.totalMem = gtk.Label(_("%s" % self.availMem))
self.labelTotal = gtk.Label(_("_Total System Memory (MB):"))
self.labelTotal.set_use_underline(True)
self.labelTotal.set_mnemonic_widget(self.totalMem)
self.labelTotal.set_alignment(0.0, 0.5)
self.labelTotal.set_width_chars(32)
# detected total amount of system memory
self.totalMem = gtk.Label(_("%s" % self.availMem))
self.labelTotal = gtk.Label(_("_Total System Memory (MB):"))
self.labelTotal.set_use_underline(True)
self.labelTotal.set_mnemonic_widget(self.totalMem)
self.labelTotal.set_alignment(0.0, 0.5)
self.labelTotal.set_width_chars(32)
# how much ram to reserve for kdump
self.memSpin = gtk.Adjustment(self.kdumpMem, lowerBound, upperBound, step, step, 64)
self.kdumpMem = gtk.SpinButton(self.memSpin, 0, 0)
self.kdumpMem.set_update_policy(gtk.UPDATE_IF_VALID)
self.kdumpMem.set_numeric(True)
self.memSpin.connect("value_changed", self.updateAvail, self.kdumpMem)
self.labelKdump = gtk.Label(_("_Kdump Memory (MB):"))
self.labelKdump.set_use_underline(True)
self.labelKdump.set_mnemonic_widget(self.kdumpMem)
self.labelKdump.set_alignment(0.0, 0.5)
# how much ram to reserve for kdump
self.memSpin = gtk.Adjustment(self.kdumpMem, lowerBound, upperBound, step, step, 64)
self.kdumpMem = gtk.SpinButton(self.memSpin, 0, 0)
self.kdumpMem.set_update_policy(gtk.UPDATE_IF_VALID)
self.kdumpMem.set_numeric(True)
self.memSpin.connect("value_changed", self.updateAvail, self.kdumpMem)
self.labelKdump = gtk.Label(_("_Kdump Memory (MB):"))
self.labelKdump.set_use_underline(True)
self.labelKdump.set_mnemonic_widget(self.kdumpMem)
self.labelKdump.set_alignment(0.0, 0.5)
# remaining usable system memory
self.resMem = eval(string.strip(self.kdumpMem.get_text()))
self.remMem = self.availMem - self.resMem
self.systemUsableMem = gtk.Label(_("%s" % self.remMem))
self.labelSys = gtk.Label(_("_Usable System Memory (MB):"))
self.labelSys.set_use_underline(True)
self.labelSys.set_mnemonic_widget(self.systemUsableMem)
self.labelSys.set_alignment(0.0, 0.5)
self.vbox = gtk.VBox()
self.vbox.set_size_request(400, 200)
# remaining usable system memory
self.resMem = eval(string.strip(self.kdumpMem.get_text()))
self.remMem = self.availMem - self.resMem
self.systemUsableMem = gtk.Label(_("%s" % self.remMem))
self.labelSys = gtk.Label(_("_Usable System Memory (MB):"))
self.labelSys.set_use_underline(True)
self.labelSys.set_mnemonic_widget(self.systemUsableMem)
self.labelSys.set_alignment(0.0, 0.5)
self.vbox = gtk.VBox()
self.vbox.set_size_request(400, 200)
title_pix = functions.imageFromFile("workstation.png")
# title_pix = loadPixbuf("workstation.png")
internalVBox = gtk.VBox()
internalVBox.set_border_width(10)
internalVBox.set_spacing(10)
internalVBox = gtk.VBox()
internalVBox.set_border_width(10)
internalVBox.set_spacing(10)
label = gtk.Label(_("Kdump is a kernel crash dumping mechanism. In the event of a "
"system crash, kdump will capture information from your system "
"that can be invaluable in determining the cause of the crash. "
"Note that kdump does require reserving a portion of system "
"memory that will be unavailable for other uses."))
label = gtk.Label(_("Kdump is a kernel crash dumping mechanism. In the event of a "
"system crash, kdump will capture information from your system "
"that can be invaluable in determining the cause of the crash. "
"Note that kdump does require reserving a portion of system "
"memory that will be unavailable for other uses."))
label.set_line_wrap(True)
label.set_alignment(0.0, 0.5)
label.set_size_request(500, -1)
internalVBox.pack_start(label, False, True)
label.set_line_wrap(True)
label.set_alignment(0.0, 0.5)
label.set_size_request(500, -1)
internalVBox.pack_start(label, False, True)
table = gtk.Table(2, 4)
table = gtk.Table(2, 4)
table.attach(self.enableKdumpCheck, 0, 2, 0, 1, gtk.FILL, gtk.FILL, 5, 5)
table.attach(self.enableKdumpCheck, 0, 2, 0, 1, gtk.FILL, gtk.FILL, 5, 5)
table.attach(self.labelTotal, 0, 1, 1, 2, gtk.FILL)
table.attach(self.totalMem, 1, 2, 1, 2, gtk.SHRINK, gtk.FILL, 5, 5)
table.attach(self.labelTotal, 0, 1, 1, 2, gtk.FILL)
table.attach(self.totalMem, 1, 2, 1, 2, gtk.SHRINK, gtk.FILL, 5, 5)
table.attach(self.labelKdump, 0, 1, 2, 3, gtk.FILL)
table.attach(self.kdumpMem, 1, 2, 2, 3, gtk.SHRINK, gtk.FILL, 5, 5)
table.attach(self.labelKdump, 0, 1, 2, 3, gtk.FILL)
table.attach(self.kdumpMem, 1, 2, 2, 3, gtk.SHRINK, gtk.FILL, 5, 5)
table.attach(self.labelSys, 0, 1, 3, 4, gtk.FILL)
table.attach(self.systemUsableMem, 1, 2, 3, 4, gtk.SHRINK, gtk.FILL, 5, 5)
table.attach(self.labelSys, 0, 1, 3, 4, gtk.FILL)
table.attach(self.systemUsableMem, 1, 2, 3, 4, gtk.SHRINK, gtk.FILL, 5, 5)
# disable until user clicks check box, if not already enabled
if self.initialState is False:
self.showHide(False)
else:
self.enableKdumpCheck.set_active(True)
# disable until user clicks check box, if not already enabled
if self.initialState is False:
self.showHide(False)
else:
self.enableKdumpCheck.set_active(True)
internalVBox.pack_start(table, True, 15)
internalVBox.pack_start(table, True, 15)
# toggle sensitivity of Mem items
self.enableKdumpCheck.connect("toggled", self.on_enableKdumpCheck_toggled)
# toggle sensitivity of Mem items
self.enableKdumpCheck.connect("toggled", self.on_enableKdumpCheck_toggled)
self.vbox.pack_start(internalVBox, False, 15)
self.vbox.pack_start(internalVBox, False, 15)
return self.vbox, title_pix, self.moduleName
def grabFocus(self):
self.enableKdumpCheck.grab_focus()
def grabFocus(self):
self.enableKdumpCheck.grab_focus()
def apply(self, *args):
if self.kdumpEnabled:
totalSysMem = self.totalMem.get_text()
totalSysMem = eval(string.strip(totalSysMem))
reservedMem = self.kdumpMem.get_value_as_int()
remainingMem = totalSysMem - reservedMem
else:
reservedMem = self.kdumpMemInitial
def apply(self, *args):
if self.kdumpEnabled:
totalSysMem = self.totalMem.get_text()
totalSysMem = eval(string.strip(totalSysMem))
reservedMem = self.kdumpMem.get_value_as_int()
remainingMem = totalSysMem - reservedMem
else:
reservedMem = self.kdumpMemInitial
if self.doDebug:
print "Running kernel %s on %s architecture" % (self.runningKernel, self.arch)
if self.enableKdumpCheck.get_active():
print "System Mem: %s MB Kdump Mem: %s MB Avail Mem: %s MB" % (totalSysMem, reservedMem, remainingMem)
else:
print "Kdump will be disabled"
if self.doDebug:
print "Running kernel %s on %s architecture" % (self.runningKernel, self.arch)
if self.enableKdumpCheck.get_active():
print "System Mem: %s MB Kdump Mem: %s MB Avail Mem: %s MB" % (totalSysMem, reservedMem, remainingMem)
else:
print "Kdump will be disabled"
# If the user simply doesn't have enough memory for kdump to be viable/supportable, tell 'em
if self.enoughMem is False and self.kdumpEnabled:
self.showErrorMessage(_("Sorry, your system does not have enough memory for kdump to be viable!"))
self.enableKdumpCheck.set_active(False)
self.showHide(False)
return RESULT_FAILURE
# Alert user that we're not going to turn on kdump if they're running a xen kernel
elif self.xenKernel != -1 and self.kdumpEnabled:
self.showErrorMessage(_("Sorry, Xen kernels do not support kdump at this time!"))
self.enableKdumpCheck.set_active(False)
self.showHide(False)
return RESULT_FAILURE
# If there's no kdump support on this arch, let the user know and don't configure
elif self.arch in self.unsupportedArches:
self.showErrorMessage(_("Sorry, the %s architecture does not support kdump at this time!" % self.arch))
self.enableKdumpCheck.set_active(False)
self.showHide(False)
return RESULT_FAILURE
# If the user simply doesn't have enough memory for kdump to be viable/supportable, tell 'em
if self.enoughMem is False and self.kdumpEnabled:
self.showErrorMessage(_("Sorry, your system does not have enough memory for kdump to be viable!"))
self.enableKdumpCheck.set_active(False)
self.showHide(False)
return 0
# Alert user that we're not going to turn on kdump if they're running a xen kernel
elif self.xenKernel != -1 and self.kdumpEnabled:
self.showErrorMessage(_("Sorry, Xen kernels do not support kdump at this time!"))
self.enableKdumpCheck.set_active(False)
self.showHide(False)
return 0
# If there's no kdump support on this arch, let the user know and don't configure
elif self.arch in self.unsupportedArches:
self.showErrorMessage(_("Sorry, the %s architecture does not support kdump at this time!" % self.arch))
self.enableKdumpCheck.set_active(False)
self.showHide(False)
return 0
# If running on an arch w/a separate kernel-kdump (i.e., non-relocatable kernel), check to
# see that its installed, otherwise, alert the user they need to install it, and give them
# the chance to abort configuration.
if self.arch in self.kernelKdumpArches and self.kernelKdumpInstalled is False:
kernelKdumpNote = "\n\nNote that the %s architecture does not feature a relocatable kernel at this time, and thus requires a separate kernel-kdump package to be installed for kdump to function. This can be installed via 'yum install kernel-kdump' at your convenience.\n\n" % self.arch
else:
kernelKdumpNote = ""
# If running on an arch w/a separate kernel-kdump (i.e., non-relocatable kernel), check to
# see that its installed, otherwise, alert the user they need to install it, and give them
# the chance to abort configuration.
if self.arch in self.kernelKdumpArches and self.kernelKdumpInstalled is False:
kernelKdumpNote = "\n\nNote that the %s architecture does not feature a relocatable kernel at this time, and thus requires a separate kernel-kdump package to be installed for kdump to function. This can be installed via 'yum install kernel-kdump' at your convenience.\n\n" % self.arch
else:
kernelKdumpNote = ""
# Don't alert if nothing has changed
if self.initialState != self.kdumpEnabled or reservedMem != self.kdumpMemInitial:
dlg = gtk.MessageDialog(None, 0, gtk.MESSAGE_INFO,
gtk.BUTTONS_YES_NO,
_("Changing Kdump settings requires rebooting the "
"system to reallocate memory accordingly. %sWould you "
"like to continue with this change and reboot the "
"system after firstboot is complete?" % kernelKdumpNote))
dlg.set_position(gtk.WIN_POS_CENTER)
dlg.show_all()
rc = dlg.run()
dlg.destroy()
# Don't alert if nothing has changed
if self.initialState != self.kdumpEnabled or reservedMem != self.kdumpMemInitial:
dlg = gtk.MessageDialog(None, 0, gtk.MESSAGE_INFO,
gtk.BUTTONS_YES_NO,
_("Changing Kdump settings requires rebooting the "
"system to reallocate memory accordingly. %sWould you "
"like to continue with this change and reboot the "
"system after firstboot is complete?" % kernelKdumpNote))
dlg.set_position(gtk.WIN_POS_CENTER)
dlg.show_all()
rc = dlg.run()
dlg.destroy()
if rc == gtk.RESPONSE_NO:
self.needsReboot = False
return RESULT_SUCCESS
else:
self.needsReboot = True
if rc == gtk.RESPONSE_NO:
self.needsReboot = False
return None
else:
self.needsReboot = True
# Find bootloader if it exists, and update accordingly
if self.getBootloader() == None:
self.showErrorMessage(_("Error! No bootloader config file found, aborting configuration!"))
self.enableKdumpCheck.set_active(False)
self.showHide(False)
return RESULT_FAILURE
else:
self.offset = self.bootloaders[self.bootloader][1]
# Find bootloader if it exists, and update accordingly
if self.getBootloader() == None:
self.showErrorMessage(_("Error! No bootloader config file found, aborting configuration!"))
self.enableKdumpCheck.set_active(False)
self.showHide(False)
return 0
else:
self.offset = self.bootloaders[self.bootloader][1]
# Are we adding or removing the crashkernel param?
if self.kdumpEnabled:
grubbyCmd = "/sbin/grubby --%s --update-kernel=/boot/vmlinuz-%s --args=crashkernel=%iM@%iM" \
% (self.bootloader, self.runningKernel, reservedMem, self.offset)
chkconfigStatus = "on"
else:
grubbyCmd = "/sbin/grubby --%s --update-kernel=/boot/vmlinuz-%s --remove-args=crashkernel=%s" \
% (self.bootloader, self.runningKernel, self.origCrashKernel)
chkconfigStatus = "off"
# Are we adding or removing the crashkernel param?
if self.kdumpEnabled:
grubbyCmd = "/sbin/grubby --%s --update-kernel=/boot/vmlinuz-%s --args=crashkernel=%iM@%iM" \
% (self.bootloader, self.runningKernel, reservedMem, self.offset)
chkconfigStatus = "on"
else:
grubbyCmd = "/sbin/grubby --%s --update-kernel=/boot/vmlinuz-%s --remove-args=crashkernel=%s" \
% (self.bootloader, self.runningKernel, self.origCrashKernel)
chkconfigStatus = "off"
if self.doDebug:
print "Using %s bootloader with %iM offset" % (self.bootloader, self.offset)
print "Grubby command would be:\n %s" % grubbyCmd
else:
os.system(grubbyCmd)
os.system("/sbin/chkconfig kdump %s" % chkconfigStatus)
if self.bootloader == 'yaboot':
os.system('/sbin/ybin')
else:
self.needsReboot = False
if self.doDebug:
print "Using %s bootloader with %iM offset" % (self.bootloader, self.offset)
print "Grubby command would be:\n %s" % grubbyCmd
else:
os.system(grubbyCmd)
os.system("/sbin/chkconfig kdump %s" % chkconfigStatus)
if self.bootloader == 'yaboot':
os.system('/sbin/ybin')
else:
self.needsReboot = False
return 0
return RESULT_SUCCESS
def showErrorMessage(self, text):
dlg = gtk.MessageDialog(None, 0, gtk.MESSAGE_ERROR, gtk.BUTTONS_OK, text)
dlg.set_position(gtk.WIN_POS_CENTER)
dlg.set_modal(True)
rc = dlg.run()
dlg.destroy()
return None
def initializeUI(self):
pass
def showErrorMessage(self, text):
dlg = gtk.MessageDialog(None, 0, gtk.MESSAGE_ERROR, gtk.BUTTONS_OK, text)
dlg.set_position(gtk.WIN_POS_CENTER)
dlg.set_modal(True)
rc = dlg.run()
dlg.destroy()
return None

5
kexec-tools.spec
View File

@ -1,6 +1,6 @@
Name: kexec-tools
Version: 2.0.0
Release: 15%{?dist}
Release: 16%{?dist}
License: GPLv2
Group: Applications/System
Summary: The kexec/kdump userspace component.
@ -256,6 +256,9 @@ done
%changelog
* Wed Jun 23 2009 Neil Horman <nhorman@redhat.com> 2.0.0-16
- Fix up kdump so it works with latest firstboot
* Mon Jun 15 2009 Neil Horman <nhorman@redhat.com> 2.0.0-15
- Fixed some stat drive detect bugs by E. Biederman (bz505701)