#
# upgrade.py - Existing install probe and upgrade procedure
#
# Copyright (C) 2001, 2002, 2003, 2004, 2005, 2006, 2007 Red Hat, Inc.
# All rights reserved.
#
# This program is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation; either version 2 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see .
#
# Author(s): Matt Wilson
#
import isys
import os
import iutil
import time
import sys
import os.path
import partedUtils
import string
import selinux
import lvm
from flags import flags
from fsset import *
from constants import *
from product import productName
import rhpl
import rhpl.arch
import gettext
_ = lambda x: gettext.ldgettext("anaconda", x)
import rpm
import logging
log = logging.getLogger("anaconda")
def guessGuestArch(rootdir):
"""root path -> None|"architecture"
Guess the architecture of installed system
"""
ts = rpm.ts(rootdir)
packages = ["filesystem", "initscripts"]
#get information from packages
for pkg in packages:
try:
mi=ts.dbMatch("name",pkg)
for hdr in mi:
return hdr["arch"]
except:
pass
return None
def isUpgradingArch(anaconda):
"""anaconda -> (bool, oldarch)
Check if the upgrade should change architecture of instalation"""
try:
rpmplatform = open(anaconda.rootPath+"/etc/rpm/platform").readline().strip()
rpmarch = rpmplatform[:rpmplatform.index("-")]
return rhpl.arch.canonArch!=rpmarch, rpmarch
except IOError:
#try some fallback methods
rpmarch = guessGuestArch(anaconda.rootPath)
if rpmarch:
return rhpl.arch.canonArch!=rpmarch, rpmarch
else:
return False, "unknown"
def queryUpgradeArch(anaconda):
archupgrade, oldrpmarch = isUpgradingArch(anaconda) #Check if we are to upgrade the architecture of previous product
if anaconda.dir == DISPATCH_FORWARD or not archupgrade:
return DISPATCH_FORWARD
rc = anaconda.intf.messageWindow(_("Proceed with upgrade?"),
_("You have choosen the upgrade for %s "
"architecture, but the installed system "
"is for %s architecture. "
"\n\n" % (rhpl.arch.canonArch, oldrpmarch,)) +
_("Would you like to upgrade "
" the installed system to the %s architecture?" % (rhpl.arch.canonArch,)),
type="custom", custom_icon=["error","error"],
custom_buttons=[_("_Exit installer"), _("_Continue")])
if rc == 0:
sys.exit(0)
flags.updateRpmPlatform = True
return DISPATCH_FORWARD
def queryUpgradeContinue(anaconda):
if anaconda.dir == DISPATCH_FORWARD:
return
rc = anaconda.intf.messageWindow(_("Proceed with upgrade?"),
_("The file systems of the Linux installation "
"you have chosen to upgrade have already been "
"mounted. You cannot go back past this point. "
"\n\n") +
_("Would you like to continue with the upgrade?"),
type="custom", custom_icon=["error","error"],
custom_buttons=[_("_Exit installer"), _("_Continue")])
if rc == 0:
sys.exit(0)
return DISPATCH_FORWARD
def findRootParts(anaconda):
if anaconda.dir == DISPATCH_BACK:
return
if anaconda.id.rootParts is None:
anaconda.id.rootParts = findExistingRoots(anaconda)
root_device = None
# ks.cfg can pass device as raw device, label or uuid. no quotes allowed
if anaconda.isKickstart and anaconda.id.ksdata.upgrade.root_device is not None:
root_device=anaconda.id.ksdata.upgrade.root_device
anaconda.id.upgradeRoot = []
for (dev, fs, meta, label, uuid) in anaconda.id.rootParts:
if (root_device is not None) and ((dev == root_device) or (("UUID=%s" % uuid) == root_device) or (("LABEL=%s" % label) == root_device)):
anaconda.id.upgradeRoot.append( (dev, fs) )
else:
anaconda.id.upgradeRoot.append( (dev, fs) )
if anaconda.id.rootParts is not None and len(anaconda.id.rootParts) > 0:
anaconda.dispatch.skipStep("findinstall", skip = 0)
if productName.find("Red Hat Enterprise Linux") == -1:
anaconda.dispatch.skipStep("installtype", skip = 1)
else:
anaconda.dispatch.skipStep("findinstall", skip = 1)
anaconda.dispatch.skipStep("installtype", skip = 0)
def findExistingRoots(anaconda, upgradeany = 0):
if not flags.setupFilesystems:
relstr = partedUtils.getReleaseString (anaconda.rootPath)
if ((flags.cmdline.has_key("upgradeany")) or
(upgradeany == 1) or
(partedUtils.productMatches(relstr, productName))):
return [(anaconda.rootPath, 'ext2', "")]
return []
anaconda.id.diskset.openDevices()
anaconda.id.partitions.getEncryptedDevices(anaconda.id.diskset)
rootparts = anaconda.id.diskset.findExistingRootPartitions(upgradeany = upgradeany)
# close the devices to make sure we don't leave things sitting open
anaconda.id.diskset.closeDevices()
# this is a hack... need to clear the skipped disk list after this
partedUtils.DiskSet.skippedDisks = []
partedUtils.DiskSet.exclusiveDisks = []
return rootparts
def getDirtyDevString(dirtyDevs):
ret = ""
for dev in dirtyDevs:
if dev != "loop":
ret = "/dev/%s\n" % (dev,)
else:
ret = "%s\n" % (dev,)
return ret
def mountRootPartition(anaconda, rootInfo, oldfsset, allowDirty = 0,
warnDirty = 0, readOnly = 0):
(root, rootFs) = rootInfo
bindMount = 0
encryptedDevices = anaconda.id.partitions.encryptedDevices
diskset = partedUtils.DiskSet(anaconda)
diskset.openDevices()
for cryptoDev in encryptedDevices.values():
cryptoDev.openDevice()
diskset.startMPath()
diskset.startDmRaid()
diskset.startMdRaid()
for cryptoDev in encryptedDevices.values():
cryptoDev.openDevice()
lvm.vgscan()
lvm.vgactivate()
for cryptoDev in encryptedDevices.values():
cryptoDev.openDevice()
if root in anaconda.id.partitions.protectedPartitions() and os.path.ismount("/mnt/isodir"):
root = "/mnt/isodir"
bindMount = 1
log.info("going to mount %s on %s as %s" %(root, anaconda.rootPath, rootFs))
isys.mount(root, anaconda.rootPath, rootFs, bindMount=bindMount)
oldfsset.reset()
newfsset = readFstab(anaconda)
for entry in newfsset.entries:
oldfsset.add(entry)
if not bindMount:
isys.umount(anaconda.rootPath)
dirtyDevs = oldfsset.hasDirtyFilesystems(anaconda.rootPath)
if not allowDirty and dirtyDevs != []:
lvm.vgdeactivate()
diskset.stopMdRaid()
diskset.stopDmRaid()
diskset.stopMPath()
anaconda.intf.messageWindow(_("Dirty File Systems"),
_("The following file systems for your Linux system "
"were not unmounted cleanly. Please boot your "
"Linux installation, let the file systems be "
"checked and shut down cleanly to upgrade.\n"
"%s" %(getDirtyDevString(dirtyDevs),)))
sys.exit(0)
elif warnDirty and dirtyDevs != []:
rc = anaconda.intf.messageWindow(_("Dirty File Systems"),
_("The following file systems for your Linux "
"system were not unmounted cleanly. Would "
"you like to mount them anyway?\n"
"%s" % (getDirtyDevString(dirtyDevs,))),
type = "yesno")
if rc == 0:
return -1
if flags.setupFilesystems:
for dev, crypto in encryptedDevices.items():
if crypto.openDevice():
log.error("failed to open encrypted device %s" % (dev,))
oldfsset.mountFilesystems(anaconda, readOnly = readOnly,
skiprootfs = bindMount)
rootEntry = oldfsset.getEntryByMountPoint("/")
if (not rootEntry or not rootEntry.fsystem or not rootEntry.fsystem.isMountable()):
raise RuntimeError, "/etc/fstab did not list a fstype for the root partition which we support"
def bindMountDevDirectory(instPath):
fs = fileSystemTypeGet("bind")
fs.mount("/dev", "/dev", bindMount=1, instroot=instPath)
# returns None if no filesystem exist to migrate
def upgradeMigrateFind(anaconda):
migents = anaconda.id.fsset.getMigratableEntries()
if not migents or len(migents) < 1:
anaconda.dispatch.skipStep("upgrademigratefs")
else:
anaconda.dispatch.skipStep("upgrademigratefs", skip = 0)
# returns None if no more swap is needed
def upgradeSwapSuggestion(anaconda):
# mem is in kb -- round it up to the nearest 4Mb
mem = iutil.memInstalled()
rem = mem % 16384
if rem:
mem = mem + (16384 - rem)
mem = mem / 1024
anaconda.dispatch.skipStep("addswap", 0)
# don't do this if we have more then 250 MB
if mem > 250:
anaconda.dispatch.skipStep("addswap", 1)
return
swap = iutil.swapAmount() / 1024
# if we have twice as much swap as ram and at least 192 megs
# total, we're safe
if (swap >= (mem * 1.5)) and (swap + mem >= 192):
anaconda.dispatch.skipStep("addswap", 1)
return
# if our total is 512 megs or more, we should be safe
if (swap + mem >= 512):
anaconda.dispatch.skipStep("addswap", 1)
return
fsList = []
for entry in anaconda.id.fsset.entries:
if entry.fsystem.getName() in getUsableLinuxFs():
if flags.setupFilesystems and not entry.isMounted():
continue
space = isys.pathSpaceAvailable(anaconda.rootPath + entry.mountpoint)
if space > 16:
info = (entry.mountpoint, entry.device.getDevice(), space)
fsList.append(info)
suggestion = mem * 2 - swap
if (swap + mem + suggestion) < 192:
suggestion = 192 - (swap + mem)
if suggestion < 32:
suggestion = 32
suggSize = 0
suggMnt = None
for (mnt, part, size) in fsList:
if (size > suggSize) and (size > (suggestion + 100)):
suggMnt = mnt
anaconda.id.upgradeSwapInfo = (fsList, suggestion, suggMnt)
def swapfileExists(swapname):
try:
os.lstat(swapname)
return 1
except:
return 0
def createSwapFile(instPath, theFsset, mntPoint, size):
fstabPath = instPath + "/etc/fstab"
prefix = ""
if mntPoint != "/":
file = mntPoint + "/SWAP"
else:
file = "/SWAP"
swapFileDict = {}
for entry in theFsset.entries:
if entry.fsystem.getName() == "swap":
swapFileDict[entry.device.getName()] = 1
count = 0
while (swapfileExists(instPath + file) or
swapFileDict.has_key(file)):
count = count + 1
tmpFile = "/SWAP-%d" % (count)
if mntPoint != "/":
file = mntPoint + tmpFile
else:
file = tmpFile
device = SwapFileDevice(file)
device.setSize(size)
fsystem = fileSystemTypeGet("swap")
entry = FileSystemSetEntry(device, "swap", fsystem)
entry.setFormat(1)
theFsset.add(entry)
theFsset.formatEntry(entry, instPath)
theFsset.turnOnSwap(instPath, upgrading=True)
# XXX generalize fstab modification
f = open(fstabPath, "a")
format = "%-23s %-23s %-7s %-15s %d %d\n";
f.write(format % (prefix + file, "swap", "swap", "defaults", 0, 0))
f.close()
# XXX handle going backwards
def upgradeMountFilesystems(anaconda):
# mount everything and turn on swap
if flags.setupFilesystems:
try:
mountRootPartition(anaconda, anaconda.id.upgradeRoot[0], anaconda.id.fsset,
allowDirty = 0)
except SystemError:
anaconda.intf.messageWindow(_("Mount failed"),
_("One or more of the file systems listed in the "
"/etc/fstab on your Linux system cannot be mounted. "
"Please fix this problem and try to upgrade again."))
sys.exit(0)
except RuntimeError:
anaconda.intf.messageWindow(_("Mount failed"),
_("One or more of the file systems listed in the "
"/etc/fstab of your Linux system are inconsistent and "
"cannot be mounted. Please fix this problem and try to "
"upgrade again."))
sys.exit(0)
checkLinks = ( '/etc', '/var', '/var/lib', '/var/lib/rpm',
'/boot', '/tmp', '/var/tmp', '/root',
'/bin/sh', '/usr/tmp')
badLinks = []
for n in checkLinks:
if not os.path.islink(anaconda.rootPath + n): continue
l = os.readlink(anaconda.rootPath + n)
if l[0] == '/':
badLinks.append(n)
if badLinks:
message = _("The following files are absolute symbolic "
"links, which we do not support during an "
"upgrade. Please change them to relative "
"symbolic links and restart the upgrade.\n\n")
for n in badLinks:
message = message + '\t' + n + '\n'
anaconda.intf.messageWindow(_("Absolute Symlinks"), message)
sys.exit(0)
# fix for 80446
badLinks = []
mustBeLinks = ( '/usr/tmp', )
for n in mustBeLinks:
if not os.path.islink(anaconda.rootPath + n):
badLinks.append(n)
if badLinks:
message = _("The following are directories which should instead "
"be symbolic links, which will cause problems with the "
"upgrade. Please return them to their original state "
"as symbolic links and restart the upgrade.\n\n")
for n in badLinks:
message = message + '\t' + n + '\n'
anaconda.intf.messageWindow(_("Invalid Directories"), message)
sys.exit(0)
bindMountDevDirectory(anaconda.rootPath)
else:
if not os.access (anaconda.rootPath + "/etc/fstab", os.R_OK):
anaconda.intf.messageWindow(_("Warning"),
_("%s not found")
% (anaconda.rootPath + "/etc/fstab",),
type="ok")
return DISPATCH_BACK
newfsset = readFstab(anaconda)
for entry in newfsset.entries:
anaconda.id.fsset.add(entry)
if flags.setupFilesystems:
if iutil.isPPC():
anaconda.id.fsset.formatSwap(anaconda.rootPath, forceFormat=True)
anaconda.id.fsset.turnOnSwap(anaconda.rootPath, upgrading=True)
anaconda.id.fsset.mkDevRoot(anaconda.rootPath)
# if they've been booting with selinux disabled, then we should
# disable it during the install as well (#242510)
try:
if os.path.exists(anaconda.rootPath + "/.autorelabel"):
ctx = selinux.getfilecon(anaconda.rootPath + "/.autorelabel")[1]
if not ctx or ctx == "unlabeled":
flags.selinux = False
log.info("Disabled SELinux for upgrade based on /.autorelabel")
except Exception, e:
log.warning("error checking selinux state: %s" %(e,))
def setSteps(anaconda):
dispatch = anaconda.dispatch
dispatch.setStepList(
"language",
"keyboard",
"welcome",
"installtype",
"findrootparts",
"findinstall",
"partitionobjinit",
"upgrademount",
"upgrademigfind",
"upgrademigratefs",
"upgradearchitecture",
"upgradecontinue",
"reposetup",
"upgbootloader",
"checkdeps",
"dependencies",
"confirmupgrade",
"postselection",
"install",
"migratefilesystems",
"preinstallconfig",
"installpackages",
"postinstallconfig",
"instbootloader",
"dopostaction",
"methodcomplete",
"postscripts",
"copylogs",
"complete"
)
if not iutil.isX86():
dispatch.skipStep("bootloader")
if not iutil.isX86():
dispatch.skipStep("upgbootloader")