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|
#
# kickstart.py: kickstart install support
#
# Copyright (C) 1999, 2000, 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 <http://www.gnu.org/licenses/>.
#
from storage.deviceaction import *
from storage.devices import LUKSDevice
from storage.devicelibs.lvm import getPossiblePhysicalExtents
from storage.devicelibs.mpath import MultipathConfigWriter, MultipathTopology
from storage.formats import getFormat
from storage.partitioning import clearPartitions
from storage.partitioning import shouldClear
import storage.iscsi
import storage.fcoe
import storage.zfcp
from errors import *
import iutil
import isys
import os
import os.path
import tempfile
from flags import flags
from constants import *
import sys
import string
import urlgrabber
import network
import upgrade
import pykickstart.commands as commands
from storage.devices import *
from scdate.core import zonetab
from pykickstart.base import KickstartCommand, BaseData
from pykickstart.constants import *
from pykickstart.errors import formatErrorMsg, KickstartError, KickstartValueError, KickstartParseError
from pykickstart.parser import Group, KickstartParser, Packages, Script
from pykickstart.sections import *
from pykickstart.version import returnClassForVersion
import gettext
_ = lambda x: gettext.ldgettext("anaconda", x)
import logging
log = logging.getLogger("anaconda")
stderrLog = logging.getLogger("anaconda.stderr")
storage_log = logging.getLogger("storage")
stdoutLog = logging.getLogger("anaconda.stdout")
from anaconda_log import logger, logLevelMap, setHandlersLevel,\
DEFAULT_TTY_LEVEL
packagesSeen = False
# deviceMatches is called early, before any multipaths can possibly be coalesced
# so it needs to know about them in some additional way: have the topology ready.
topology = None
class AnacondaKSScript(Script):
def run(self, chroot, serial, intf = None):
if self.inChroot:
scriptRoot = chroot
else:
scriptRoot = "/"
(fd, path) = tempfile.mkstemp("", "ks-script-", scriptRoot + "/tmp")
os.write(fd, self.script)
os.close(fd)
os.chmod(path, 0700)
# Always log stdout/stderr from scripts. Using --logfile just lets you
# pick where it goes. The script will also be logged to program.log
# because of execWithRedirect, and to anaconda.log if the script fails.
if self.logfile:
if self.inChroot:
messages = "%s/%s" % (scriptRoot, self.logfile)
else:
messages = self.logfile
d = os.path.dirname(messages)
if not os.path.exists(d):
os.makedirs(d)
else:
messages = "%s.log" % path
if intf:
intf.suspend()
rc = iutil.execWithRedirect(self.interp, ["/tmp/%s" % os.path.basename(path)],
stdin = messages, stdout = messages, stderr = messages,
root = scriptRoot)
if intf:
intf.resume()
# Always log an error. Only fail if we have a handle on the
# windowing system and the kickstart file included --erroronfail.
if rc != 0:
log.error("Error code %s running the kickstart script at line %s" % (rc, self.lineno))
try:
f = open(messages, "r")
except IOError as e:
err = None
else:
err = f.readlines()
f.close()
for l in err:
log.error("\t%s" % l)
if self.errorOnFail:
if intf != None:
msg = _("There was an error running the kickstart "
"script at line %(lineno)s. You may examine the "
"output in %(msgs)s. This is a fatal error and "
"installation will be aborted. Press the "
"OK button to exit the installer.") \
% {'lineno': self.lineno, 'msgs': messages}
if err:
intf.detailedMessageWindow(_("Scriptlet Failure"), msg, err)
else:
intf.messageWindow(_("Scriptlet Failure"), msg)
sys.exit(0)
if serial or self.logfile is not None:
os.chmod("%s" % messages, 0600)
def getEscrowCertificate(anaconda, url):
if not url:
return None
if url in anaconda.storage.escrowCertificates:
return anaconda.storage.escrowCertificates[url]
needs_net = not url.startswith("/") and not url.startswith("file:")
if needs_net and not network.hasActiveNetDev():
msg = _("Escrow certificate with url %s requires network to be enabled "
"in loader or configured in kickstart file." % url)
if anaconda.intf:
anaconda.intf.kickstartErrorWindow(msg)
sys.exit(1)
else:
stderrLog.critical(msg)
sys.exit(1)
log.info("escrow: downloading %s" % (url,))
try:
f = urlgrabber.urlopen(url)
except urlgrabber.grabber.URLGrabError as e:
msg = _("The following error was encountered while downloading the escrow certificate:\n\n%s" % e)
if anaconda.intf:
anaconda.intf.kickstartErrorWindow(msg)
sys.exit(1)
else:
stderrLog.critical(msg)
sys.exit(1)
try:
anaconda.storage.escrowCertificates[url] = f.read()
finally:
f.close()
return anaconda.storage.escrowCertificates[url]
def detect_multipaths():
global topology
mcw = MultipathConfigWriter()
cfg = mcw.write(friendly_names=True)
with open("/etc/multipath.conf", "w+") as mpath_cfg:
mpath_cfg.write(cfg)
devices = udev_get_block_devices()
topology = MultipathTopology(devices)
def deviceMatches(spec):
full_spec = spec
if not full_spec.startswith("/dev/"):
full_spec = os.path.normpath("/dev/" + full_spec)
# the regular case
matches = udev_resolve_glob(full_spec)
dev = udev_resolve_devspec(full_spec)
# udev_resolve_devspec returns None if there's no match, but we don't
# want that ending up in the list.
if dev and dev not in matches:
matches.append(dev)
# now see if any mpaths and mpath members match
for members in topology.multipaths_iter():
mpath_name = udev_device_get_multipath_name(members[0])
member_names = map(udev_device_get_name, members)
if mpath_name == spec or (dev in member_names):
# append the entire mpath
matches.append(mpath_name)
matches.extend(member_names)
return matches
# Remove any existing formatting on a device, but do not remove the partition
# itself. This sets up an existing device to be used in a --onpart option.
def removeExistingFormat(device, storage):
deps = storage.deviceDeps(device)
while deps:
leaves = [d for d in deps if d.isleaf]
for leaf in leaves:
storage.destroyDevice(leaf)
deps.remove(leaf)
storage.devicetree.registerAction(ActionDestroyFormat(device))
###
### SUBCLASSES OF PYKICKSTART COMMAND HANDLERS
###
class Authconfig(commands.authconfig.FC3_Authconfig):
def execute(self):
self.anaconda.security.auth = self.authconfig
class AutoPart(commands.autopart.F16_AutoPart):
def execute(self):
# sets up default autopartitioning. use clearpart separately
# if you want it
self.anaconda.instClass.setDefaultPartitioning(self.anaconda.storage, self.anaconda.platform)
self.anaconda.storage.doAutoPart = True
if self.encrypted:
self.anaconda.storage.encryptedAutoPart = True
self.anaconda.storage.encryptionPassphrase = self.passphrase
self.anaconda.storage.autoPartEscrowCert = \
getEscrowCertificate(self.anaconda, self.escrowcert)
self.anaconda.storage.autoPartAddBackupPassphrase = \
self.backuppassphrase
if not self.lvm:
self.anaconda.storage.lvmAutoPart = False
self.anaconda.dispatch.skip_steps("partition", "parttype")
class AutoStep(commands.autostep.FC3_AutoStep):
def execute(self):
flags.autostep = 1
flags.autoscreenshot = self.autoscreenshot
class Bootloader(commands.bootloader.F15_Bootloader):
def execute(self):
if self.location == "none":
location = None
elif self.location == "partition":
location = "boot"
else:
location = self.location
if self.upgrade and not self.anaconda.upgrade:
raise KickstartValueError, formatErrorMsg(self.lineno, msg="Selected upgrade mode for bootloader but not doing an upgrade")
if self.upgrade and self.anaconda.bootloader.can_update:
self.anaconda.bootloader.update_only = True
if location is None:
self.anaconda.dispatch.skip_steps("instbootloader")
else:
if self.appendLine:
args = self.appendLine.split()
self.anaconda.bootloader.boot_args.update(args)
if self.password:
if self.isCrypted:
self.anaconda.bootloader.encrypted_password = self.password
else:
self.anaconda.bootloader.password = self.password
if location != None:
self.anaconda.bootloader.set_preferred_stage1_type(location)
if self.timeout is not None:
self.anaconda.bootloader.timeout = self.timeout
# Throw out drives specified that don't exist.
disk_names = [d.name for d in self.anaconda.storage.disks]
for drive in self.driveorder[:]:
if drive not in disk_names:
log.warning("requested drive %s in boot drive order doesn't exist" % drive)
self.driveorder.remove(drive)
self.anaconda.bootloader.drive_order = self.driveorder
self.anaconda.dispatch.skip_steps("upgbootloader", "bootloader")
class ClearPart(commands.clearpart.FC3_ClearPart):
def parse(self, args):
retval = commands.clearpart.FC3_ClearPart.parse(self, args)
if self.type is None:
self.type = CLEARPART_TYPE_NONE
# Do any glob expansion now, since we need to have the real list of
# disks available before the execute methods run.
drives = []
for spec in self.drives:
matched = deviceMatches(spec)
if matched:
drives.extend(matched)
else:
raise KickstartValueError, formatErrorMsg(self.lineno, msg="Specified nonexistent disk %s in clearpart command" % spec)
self.drives = drives
return retval
def execute(self):
self.anaconda.storage.config.clearPartType = self.type
self.anaconda.storage.config.clearPartDisks = self.drives
if self.initAll:
self.anaconda.storage.config.reinitializeDisks = self.initAll
clearPartitions(self.anaconda.storage)
self.anaconda.dispatch.skip_steps("cleardiskssel")
class Fcoe(commands.fcoe.F13_Fcoe):
def parse(self, args):
fc = commands.fcoe.F13_Fcoe.parse(self, args)
if fc.nic not in isys.getDeviceProperties():
raise KickstartValueError, formatErrorMsg(self.lineno, msg="Specified nonexistent nic %s in fcoe command" % fc.nic)
storage.fcoe.fcoe().addSan(nic=fc.nic, dcb=fc.dcb)
return fc
class Firewall(commands.firewall.F14_Firewall):
def execute(self):
self.anaconda.firewall.enabled = self.enabled
self.anaconda.firewall.trustdevs = self.trusts
for port in self.ports:
self.anaconda.firewall.portlist.append (port)
for svc in self.services:
self.anaconda.firewall.servicelist.append (svc)
class IgnoreDisk(commands.ignoredisk.RHEL6_IgnoreDisk):
def parse(self, args):
retval = commands.ignoredisk.RHEL6_IgnoreDisk.parse(self, args)
# See comment in ClearPart.parse
drives = []
for spec in self.ignoredisk:
matched = deviceMatches(spec)
if matched:
drives.extend(matched)
else:
raise KickstartValueError, formatErrorMsg(self.lineno, msg="Specified nonexistent disk %s in ignoredisk command" % spec)
self.ignoredisk = drives
drives = []
for spec in self.onlyuse:
matched = deviceMatches(spec)
if matched:
drives.extend(matched)
else:
raise KickstartValueError, formatErrorMsg(self.lineno, msg="Specified nonexistent disk %s in ignoredisk command" % spec)
self.onlyuse = drives
return retval
class Iscsi(commands.iscsi.F10_Iscsi):
class Login(object):
def __init__(self, iscsi_obj, tg_data):
self.iscsi_obj = iscsi_obj
self.tg_data = tg_data
def login(self, node):
if self.tg_data.target and self.tg_data.target != node.name:
log.debug("kickstart: skipping logging to iscsi node '%s'" %
node.name)
return False
(rc, _) = self.iscsi_obj.log_into_node(
node, self.tg_data.user, self.tg_data.password,
self.tg_data.user_in, self.tg_data.password_in)
return rc
def parse(self, args):
tg = commands.iscsi.F10_Iscsi.parse(self, args)
try:
iscsi_obj = storage.iscsi.iscsi()
discovered_nodes = iscsi_obj.discover(
tg.ipaddr, tg.port, tg.user, tg.password,
tg.user_in, tg.password_in)
login = self.Login(iscsi_obj, tg)
logged_into_nodes = filter(login.login, discovered_nodes)
if len(logged_into_nodes) < 1:
msg = _("Could not log into any iSCSI nodes at the portal.")
raise KickstartValueError, formatErrorMsg(self.lineno,
msg=msg)
except (IOError, ValueError) as e:
raise KickstartValueError, formatErrorMsg(self.lineno,
msg=str(e))
return tg
class IscsiName(commands.iscsiname.FC6_IscsiName):
def parse(self, args):
retval = commands.iscsiname.FC6_IscsiName.parse(self, args)
storage.iscsi.iscsi().initiator = self.iscsiname
return retval
class Keyboard(commands.keyboard.FC3_Keyboard):
def execute(self):
self.anaconda.keyboard.set(self.keyboard)
self.anaconda.keyboard.beenset = 1
self.anaconda.dispatch.skip_steps("keyboard")
class Lang(commands.lang.FC3_Lang):
def execute(self):
self.anaconda.instLanguage.instLang = self.lang
self.anaconda.instLanguage.systemLang = self.lang
self.anaconda.instLanguage.buildLocale()
self.anaconda.dispatch.skip_steps("language")
class LogVolData(commands.logvol.F15_LogVolData):
def execute(self):
storage = self.anaconda.storage
devicetree = storage.devicetree
storage.doAutoPart = False
if self.mountpoint == "swap":
type = "swap"
self.mountpoint = ""
if self.recommended:
(self.size, self.maxSizeMB) = iutil.swapSuggestion()
self.grow = True
else:
if self.fstype != "":
type = self.fstype
else:
type = storage.defaultFSType
# Sanity check mountpoint
if self.mountpoint != "" and self.mountpoint[0] != '/':
raise KickstartValueError, formatErrorMsg(self.lineno, msg="The mount point \"%s\" is not valid." % (self.mountpoint,))
# Check that the VG this LV is a member of has already been specified.
vg = devicetree.getDeviceByName(self.vgname)
if not vg:
raise KickstartValueError, formatErrorMsg(self.lineno, msg="No volume group exists with the name \"%s\". Specify volume groups before logical volumes." % self.vgname)
# If this specifies an existing request that we should not format,
# quit here after setting up enough information to mount it later.
if not self.format:
if not self.name:
raise KickstartValueError, formatErrorMsg(self.lineno, msg="--noformat used without --name")
dev = devicetree.getDeviceByName("%s-%s" % (vg.name, self.name))
if not dev:
raise KickstartValueError, formatErrorMsg(self.lineno, msg="No preexisting logical volume with the name \"%s\" was found." % self.name)
dev.format.mountpoint = self.mountpoint
dev.format.mountopts = self.fsopts
self.anaconda.dispatch.skip_steps("partition", "parttype")
return
# Make sure this LV name is not already used in the requested VG.
if not self.preexist:
tmp = devicetree.getDeviceByName("%s-%s" % (vg.name, self.name))
if tmp:
raise KickstartValueError, formatErrorMsg(self.lineno, msg="Logical volume name already used in volume group %s" % vg.name)
# Size specification checks
if not self.percent:
if not self.size:
raise KickstartValueError, formatErrorMsg(self.lineno, msg="Size required")
elif not self.grow and self.size*1024 < vg.peSize:
raise KickstartValueError, formatErrorMsg(self.lineno, msg="Logical volume size must be larger than the volume group physical extent size.")
elif self.percent <= 0 or self.percent > 100:
raise KickstartValueError, formatErrorMsg(self.lineno, msg="Percentage must be between 0 and 100")
# Now get a format to hold a lot of these extra values.
format = getFormat(type,
mountpoint=self.mountpoint,
label=self.label,
mountopts=self.fsopts)
if not format:
raise KickstartValueError, formatErrorMsg(self.lineno, msg="The \"%s\" filesystem type is not supported." % type)
# If we were given a pre-existing LV to create a filesystem on, we need
# to verify it and its VG exists and then schedule a new format action
# to take place there. Also, we only support a subset of all the
# options on pre-existing LVs.
if self.preexist:
device = devicetree.getDeviceByName("%s-%s" % (vg.name, self.name))
if not device:
raise KickstartValueError, formatErrorMsg(self.lineno, msg="Specified nonexistent LV %s in logvol command" % self.name)
removeExistingFormat(device, storage)
devicetree.registerAction(ActionCreateFormat(device, format))
else:
# If a previous device has claimed this mount point, delete the
# old one.
try:
if self.mountpoint:
device = storage.mountpoints[self.mountpoint]
storage.destroyDevice(device)
except KeyError:
pass
request = storage.newLV(format=format,
name=self.name,
vg=vg,
size=self.size,
grow=self.grow,
maxsize=self.maxSizeMB,
percent=self.percent)
if self.fsprofile and hasattr(request.format, "fsprofile"):
request.format.fsprofile = self.fsprofile
storage.createDevice(request)
if self.encrypted:
if self.passphrase and not storage.encryptionPassphrase:
storage.encryptionPassphrase = self.passphrase
cert = getEscrowCertificate(self.anaconda, self.escrowcert)
if self.preexist:
luksformat = format
device.format = getFormat("luks", passphrase=self.passphrase, device=device.path,
escrow_cert=cert,
add_backup_passphrase=self.backuppassphrase)
luksdev = LUKSDevice("luks%d" % storage.nextID,
format=luksformat,
parents=device)
else:
luksformat = request.format
request.format = getFormat("luks", passphrase=self.passphrase,
escrow_cert=cert,
add_backup_passphrase=self.backuppassphrase)
luksdev = LUKSDevice("luks%d" % storage.nextID,
format=luksformat,
parents=request)
storage.createDevice(luksdev)
self.anaconda.dispatch.skip_steps("partition", "parttype")
class Logging(commands.logging.FC6_Logging):
def execute(self):
if logger.tty_loglevel == DEFAULT_TTY_LEVEL:
# not set from the command line
level = logLevelMap[self.level]
logger.tty_loglevel = level
setHandlersLevel(log, level)
setHandlersLevel(storage_log, level)
if logger.remote_syslog == None and len(self.host) > 0:
# not set from the command line, ok to use kickstart
remote_server = self.host
if self.port:
remote_server = "%s:%s" %(self.host, self.port)
logger.updateRemote(remote_server)
class NetworkData(commands.network.F16_NetworkData):
def execute(self):
if flags.imageInstall:
if self.hostname != "":
self.anaconda.network.setHostname(self.hostname)
# Only set hostname
return
# we can ignore this here (already activated in stage 1)
# only set hostname
if self.essid:
if self.hostname != "":
self.anaconda.network.setHostname(self.hostname)
return
devices = self.anaconda.network.netdevices
if not self.device:
if self.anaconda.network.ksdevice:
msg = "ksdevice boot parameter"
device = self.anaconda.network.ksdevice
elif network.hasActiveNetDev():
# device activated in stage 1 by network kickstart command
msg = "first active device"
device = network.getActiveNetDevs()[0]
else:
msg = "first device found"
device = min(devices.keys())
log.info("unspecified network --device in kickstart, using %s (%s)" %
(device, msg))
else:
if self.device.lower() == "ibft":
return
if self.device.lower() == "bootif":
if "BOOTIF" in flags.cmdline:
# MAC address like 01-aa-bb-cc-dd-ee-ff
device = flags.cmdline["BOOTIF"][3:]
device = device.replace("-",":")
else:
raise KickstartValueError, formatErrorMsg(self.lineno, msg="Using --device=bootif without BOOTIF= boot option supplied")
else: device = self.device
# If we were given a network device name, grab the device object.
# If we were given a MAC address, resolve that to a device name
# and then grab the device object. Otherwise, errors.
dev = None
if devices.has_key(device):
dev = devices[device]
else:
for (key, val) in devices.iteritems():
if val.get("HWADDR").lower() == device.lower():
dev = val
break
if self.hostname != "":
self.anaconda.network.setHostname(self.hostname)
if not dev:
# Only set hostname
return
else:
if not dev:
raise KickstartValueError, formatErrorMsg(self.lineno, msg="The provided network interface %s does not exist" % device)
# ipv4 settings
if not self.noipv4:
dev.set(("BOOTPROTO", self.bootProto))
dev.set(("DHCPCLASS", self.dhcpclass))
if self.bootProto == "static":
if (self.ip):
dev.set(("IPADDR", self.ip))
if (self.netmask):
dev.set(("NETMASK", self.netmask))
if self.bootProto == "dhcp" and self.hostname:
dev.set(("DHCP_HOSTNAME", self.hostname))
# ipv6 settings
if self.noipv6:
dev.set(("IPV6INIT", "no"))
else:
dev.set(("IPV6INIT", "yes"))
if self.ipv6 == "auto":
dev.set(("IPV6_AUTOCONF", "yes"))
elif self.ipv6 == "dhcp":
dev.set(("IPV6_AUTOCONF", "no"))
dev.set(("DHCPV6C", "yes"))
elif self.ipv6:
dev.set(("IPV6_AUTOCONF", "no"))
dev.set(("IPV6ADDR", "%s" % self.ipv6))
# settings common for ipv4 and ipv6
if not self.noipv6 or not self.noipv4:
if self.onboot:
dev.set (("ONBOOT", "yes"))
else:
dev.set (("ONBOOT", "no"))
if self.mtu:
dev.set(("MTU", self.mtu))
if self.ethtool:
dev.set(("ETHTOOL_OPTS", self.ethtool))
if self.nameserver != "":
self.anaconda.network.setDNS(self.nameserver, dev.iface)
if self.gateway != "":
self.anaconda.network.setGateway(self.gateway, dev.iface)
if self.nodefroute:
dev.set (("DEFROUTE", "no"))
class MultiPath(commands.multipath.FC6_MultiPath):
def parse(self, args):
raise NotImplementedError("The multipath kickstart command is not currently supported")
class DmRaid(commands.dmraid.FC6_DmRaid):
def parse(self, args):
raise NotImplementedError("The dmraid kickstart command is not currently supported")
class PartitionData(commands.partition.F12_PartData):
def execute(self):
storage = self.anaconda.storage
devicetree = storage.devicetree
kwargs = {}
storage.doAutoPart = False
if self.onbiosdisk != "":
for (disk, biosdisk) in storage.eddDict.iteritems():
if str(biosdisk) == self.onbiosdisk:
self.disk = disk
break
if self.disk == "":
raise KickstartValueError, formatErrorMsg(self.lineno, msg="Specified BIOS disk %s cannot be determined" % self.onbiosdisk)
if self.mountpoint == "swap":
type = "swap"
self.mountpoint = ""
if self.recommended:
(self.size, self.maxSizeMB) = iutil.swapSuggestion()
self.grow = True
# if people want to specify no mountpoint for some reason, let them
# this is really needed for pSeries boot partitions :(
elif self.mountpoint == "None":
self.mountpoint = ""
if self.fstype:
type = self.fstype
else:
type = storage.defaultFSType
elif self.mountpoint == 'appleboot':
type = "Apple Bootstrap"
self.mountpoint = ""
kwargs["weight"] = self.anaconda.platform.weight(fstype="appleboot")
elif self.mountpoint == 'prepboot':
type = "PPC PReP Boot"
self.mountpoint = ""
kwargs["weight"] = self.anaconda.platform.weight(fstype="prepboot")
elif self.mountpoint == 'biosboot':
type = "biosboot"
self.mountpoint = ""
kwargs["weight"] = self.anaconda.platform.weight(fstype="biosboot")
elif self.mountpoint.startswith("raid."):
type = "mdmember"
kwargs["name"] = self.mountpoint
if devicetree.getDeviceByName(kwargs["name"]):
raise KickstartValueError, formatErrorMsg(self.lineno, msg="RAID partition defined multiple times")
# store "raid." alias for other ks partitioning commands
if self.onPart:
self.anaconda.ksdata.onPart[kwargs["name"]] = self.onPart
self.mountpoint = ""
elif self.mountpoint.startswith("pv."):
type = "lvmpv"
kwargs["name"] = self.mountpoint
if devicetree.getDeviceByName(kwargs["name"]):
raise KickstartValueError, formatErrorMsg(self.lineno, msg="PV partition defined multiple times")
# store "pv." alias for other ks partitioning commands
if self.onPart:
self.anaconda.ksdata.onPart[kwargs["name"]] = self.onPart
self.mountpoint = ""
elif self.mountpoint == "/boot/efi":
type = "EFI System Partition"
self.fsopts = "defaults,uid=0,gid=0,umask=0077,shortname=winnt"
kwargs["weight"] = self.anaconda.platform.weight(fstype="efi")
else:
if self.fstype != "":
type = self.fstype
elif self.mountpoint == "/boot":
type = storage.defaultBootFSType
else:
type = storage.defaultFSType
# If this specified an existing request that we should not format,
# quit here after setting up enough information to mount it later.
if not self.format:
if not self.onPart:
raise KickstartValueError, formatErrorMsg(self.lineno, msg="--noformat used without --onpart")
dev = devicetree.getDeviceByName(udev_resolve_devspec(self.onPart))
if not dev:
raise KickstartValueError, formatErrorMsg(self.lineno, msg="No preexisting partition with the name \"%s\" was found." % self.onPart)
dev.format.mountpoint = self.mountpoint
dev.format.mountopts = self.fsopts
self.anaconda.dispatch.skip_steps("partition", "parttype")
return
# Now get a format to hold a lot of these extra values.
kwargs["format"] = getFormat(type,
mountpoint=self.mountpoint,
label=self.label,
mountopts=self.fsopts)
if not kwargs["format"]:
raise KickstartValueError, formatErrorMsg(self.lineno, msg="The \"%s\" filesystem type is not supported." % type)
# If we were given a specific disk to create the partition on, verify
# that it exists first. If it doesn't exist, see if it exists with
# mapper/ on the front. If that doesn't exist either, it's an error.
if self.disk:
names = [self.disk, "mapper/" + self.disk]
for n in names:
disk = devicetree.getDeviceByName(udev_resolve_devspec(n))
# if this is a multipath member promote it to the real mpath
if disk and disk.format.type == "multipath_member":
mpath_device = storage.devicetree.getChildren(disk)[0]
storage_log.info("kickstart: part: promoting %s to %s"
% (disk.name, mpath_device.name))
disk = mpath_device
if not disk:
raise KickstartValueError, formatErrorMsg(self.lineno, msg="Specified nonexistent disk %s in partition command" % n)
if not disk.partitionable:
raise KickstartValueError, formatErrorMsg(self.lineno, msg="Cannot install to read-only media %s." % n)
should_clear = shouldClear(disk,
storage.config.clearPartType,
storage.config.clearPartDisks)
if disk and (disk.partitioned or should_clear):
kwargs["disks"] = [disk]
break
elif disk:
raise KickstartValueError, formatErrorMsg(self.lineno, msg="Specified unpartitioned disk %s in partition command" % self.disk)
if not kwargs["disks"]:
raise KickstartValueError, formatErrorMsg(self.lineno, msg="Specified nonexistent disk %s in partition command" % self.disk)
kwargs["grow"] = self.grow
kwargs["size"] = self.size
kwargs["maxsize"] = self.maxSizeMB
kwargs["primary"] = self.primOnly
# If we were given a pre-existing partition to create a filesystem on,
# we need to verify it exists and then schedule a new format action to
# take place there. Also, we only support a subset of all the options
# on pre-existing partitions.
if self.onPart:
device = devicetree.getDeviceByName(udev_resolve_devspec(self.onPart))
if not device:
raise KickstartValueError, formatErrorMsg(self.lineno, msg="Specified nonexistent partition %s in partition command" % self.onPart)
removeExistingFormat(device, storage)
devicetree.registerAction(ActionCreateFormat(device, kwargs["format"]))
else:
# If a previous device has claimed this mount point, delete the
# old one.
try:
if self.mountpoint:
device = storage.mountpoints[self.mountpoint]
storage.destroyDevice(device)
except KeyError:
pass
request = storage.newPartition(**kwargs)
if self.fsprofile and hasattr(request.format, "fsprofile"):
request.format.fsprofile = self.fsprofile
storage.createDevice(request)
if self.encrypted:
if self.passphrase and not storage.encryptionPassphrase:
storage.encryptionPassphrase = self.passphrase
cert = getEscrowCertificate(self.anaconda, self.escrowcert)
if self.onPart:
luksformat = format
device.format = getFormat("luks", passphrase=self.passphrase, device=device.path,
escrow_cert=cert,
add_backup_passphrase=self.backuppassphrase)
luksdev = LUKSDevice("luks%d" % storage.nextID,
format=luksformat,
parents=device)
else:
luksformat = request.format
request.format = getFormat("luks", passphrase=self.passphrase,
escrow_cert=cert,
add_backup_passphrase=self.backuppassphrase)
luksdev = LUKSDevice("luks%d" % storage.nextID,
format=luksformat,
parents=request)
storage.createDevice(luksdev)
self.anaconda.dispatch.skip_steps("partition", "parttype")
class Reboot(commands.reboot.FC6_Reboot):
def execute(self):
self.anaconda.dispatch.skip_steps("complete")
class RaidData(commands.raid.F15_RaidData):
def execute(self):
raidmems = []
devicename = "md%d" % self.device
storage = self.anaconda.storage
devicetree = storage.devicetree
kwargs = {}
storage.doAutoPart = False
if self.mountpoint == "swap":
type = "swap"
self.mountpoint = ""
elif self.mountpoint.startswith("pv."):
type = "lvmpv"
kwargs["name"] = self.mountpoint
self.anaconda.ksdata.onPart[kwargs["name"]] = devicename
if devicetree.getDeviceByName(kwargs["name"]):
raise KickstartValueError, formatErrorMsg(self.lineno, msg="PV partition defined multiple times")
self.mountpoint = ""
else:
if self.fstype != "":
type = self.fstype
elif self.mountpoint == "/boot" and \
"mdarray" in self.anaconda.bootloader.stage2_device_types:
type = storage.defaultBootFSType
else:
type = storage.defaultFSType
# Sanity check mountpoint
if self.mountpoint != "" and self.mountpoint[0] != '/':
raise KickstartValueError, formatErrorMsg(self.lineno, msg="The mount point is not valid.")
# If this specifies an existing request that we should not format,
# quit here after setting up enough information to mount it later.
if not self.format:
if not devicename:
raise KickstartValueError, formatErrorMsg(self.lineno, msg="--noformat used without --device")
dev = devicetree.getDeviceByName(devicename)
if not dev:
raise KickstartValueError, formatErrorMsg(self.lineno, msg="No preexisting RAID device with the name \"%s\" was found." % devicename)
dev.format.mountpoint = self.mountpoint
dev.format.mountopts = self.fsopts
self.anaconda.dispatch.skip_steps("partition", "parttype")
return
# Get a list of all the RAID members.
for member in self.members:
# if member is using --onpart, use original device
member = self.anaconda.ksdata.onPart.get(member, member)
dev = devicetree.getDeviceByName(member)
if dev and dev.format.type == "luks":
try:
dev = devicetree.getChildren(dev)[0]
except IndexError:
dev = None
if not dev:
raise KickstartValueError, formatErrorMsg(self.lineno, msg="Tried to use undefined partition %s in RAID specification" % member)
raidmems.append(dev)
# Now get a format to hold a lot of these extra values.
kwargs["format"] = getFormat(type,
label=self.label,
mountpoint=self.mountpoint,
mountopts=self.fsopts)
if not kwargs["format"]:
raise KickstartValueError, formatErrorMsg(self.lineno, msg="The \"%s\" filesystem type is not supported." % type)
kwargs["name"] = devicename
kwargs["level"] = self.level
kwargs["parents"] = raidmems
kwargs["memberDevices"] = len(raidmems) - self.spares
kwargs["totalDevices"] = len(raidmems)
# If we were given a pre-existing RAID to create a filesystem on,
# we need to verify it exists and then schedule a new format action
# to take place there. Also, we only support a subset of all the
# options on pre-existing RAIDs.
if self.preexist:
device = devicetree.getDeviceByName(devicename)
if not device:
raise KickstartValueError, formatErrorMsg(self.lineno, msg="Specifeid nonexistent RAID %s in raid command" % devicename)
removeExistingFormat(device, storage)
devicetree.registerAction(ActionCreateFormat(device, kwargs["format"]))
else:
if devicename and devicename in [a.name for a in storage.mdarrays]:
raise KickstartValueError(formatErrorMsg(self.lineno, msg="The Software RAID array name \"%s\" is already in use." % devicename))
# If a previous device has claimed this mount point, delete the
# old one.
try:
if self.mountpoint:
device = storage.mountpoints[self.mountpoint]
storage.destroyDevice(device)
except KeyError:
pass
try:
request = storage.newMDArray(**kwargs)
except ValueError as e:
raise KickstartValueError, formatErrorMsg(self.lineno, msg=str(e))
if self.fsprofile and hasattr(request.format, "fsprofile"):
request.format.fsprofile = self.fsprofile
storage.createDevice(request)
if self.encrypted:
if self.passphrase and not storage.encryptionPassphrase:
storage.encryptionPassphrase = self.passphrase
cert = getEscrowCertificate(self.anaconda, self.escrowcert)
if self.preexist:
luksformat = format
device.format = getFormat("luks", passphrase=self.passphrase, device=device.path,
escrow_cert=cert,
add_backup_passphrase=self.backuppassphrase)
luksdev = LUKSDevice("luks%d" % storage.nextID,
format=luksformat,
parents=device)
else:
luksformat = request.format
request.format = getFormat("luks", passphrase=self.passphrase,
escrow_cert=cert,
add_backup_passphrase=self.backuppassphrase)
luksdev = LUKSDevice("luks%d" % storage.nextID,
format=luksformat,
parents=request)
storage.createDevice(luksdev)
self.anaconda.dispatch.skip_steps("partition", "parttype")
class RootPw(commands.rootpw.F8_RootPw):
def execute(self):
self.anaconda.users.rootPassword["password"] = self.password
self.anaconda.users.rootPassword["isCrypted"] = self.isCrypted
self.anaconda.users.rootPassword["lock"] = self.lock
self.anaconda.dispatch.skip_steps("accounts")
class SELinux(commands.selinux.FC3_SELinux):
def execute(self):
self.anaconda.security.setSELinux(self.selinux)
class SkipX(commands.skipx.FC3_SkipX):
def execute(self):
if self.anaconda.desktop is not None:
self.anaconda.desktop.setDefaultRunLevel(3)
class Timezone(commands.timezone.FC6_Timezone):
def execute(self):
# check validity
tab = zonetab.ZoneTab()
if self.timezone not in (entry.tz.replace(' ','_') for entry in
tab.getEntries()):
log.warning("Timezone %s set in kickstart is not valid." % (self.timezone,))
self.anaconda.timezone.setTimezoneInfo(self.timezone, self.isUtc)
self.anaconda.dispatch.skip_steps("timezone")
class Upgrade(commands.upgrade.F11_Upgrade):
def execute(self):
self.anaconda.upgrade = self.upgrade
class VolGroupData(commands.volgroup.FC3_VolGroupData):
def execute(self):
pvs = []
storage = self.anaconda.storage
devicetree = storage.devicetree
storage.doAutoPart = False
# Get a list of all the physical volume devices that make up this VG.
for pv in self.physvols:
# if pv is using --onpart, use original device
pv = self.anaconda.ksdata.onPart.get(pv, pv)
dev = devicetree.getDeviceByName(pv)
if dev and dev.format.type == "luks":
try:
dev = devicetree.getChildren(dev)[0]
except IndexError:
dev = None
if not dev:
raise KickstartValueError, formatErrorMsg(self.lineno, msg="Tried to use undefined partition %s in Volume Group specification" % pv)
pvs.append(dev)
if len(pvs) == 0 and not self.preexist:
raise KickstartValueError, formatErrorMsg(self.lineno, msg="Volume group defined without any physical volumes. Either specify physical volumes or use --useexisting.")
if self.pesize not in getPossiblePhysicalExtents(floor=1024):
raise KickstartValueError, formatErrorMsg(self.lineno, msg="Volume group specified invalid pesize")
# If --noformat or --useexisting was given, there's really nothing to do.
if not self.format or self.preexist:
if not self.vgname:
raise KickstartValueError, formatErrorMsg(self.lineno, msg="--noformat or --useexisting used without giving a name")
dev = devicetree.getDeviceByName(self.vgname)
if not dev:
raise KickstartValueError, formatErrorMsg(self.lineno, msg="No preexisting VG with the name \"%s\" was found." % self.vgname)
elif self.vgname in [vg.name for vg in storage.vgs]:
raise KickstartValueError(formatErrorMsg(self.lineno, msg="The volume group name \"%s\" is already in use." % self.vgname))
else:
request = storage.newVG(pvs=pvs,
name=self.vgname,
peSize=self.pesize/1024.0)
storage.createDevice(request)
if self.reserved_space:
request.reserved_space = self.reserved_space
elif self.reserved_percent:
request.reserved_percent = self.reserved_percent
class XConfig(commands.xconfig.F14_XConfig):
def execute(self):
if self.startX:
self.anaconda.desktop.setDefaultRunLevel(5)
if self.defaultdesktop:
self.anaconda.desktop.setDefaultDesktop(self.defaultdesktop)
class ZFCP(commands.zfcp.F14_ZFCP):
def parse(self, args):
fcp = commands.zfcp.F14_ZFCP.parse(self, args)
try:
storage.zfcp.ZFCP().addFCP(fcp.devnum, fcp.wwpn, fcp.fcplun)
except ValueError as e:
log.warning(str(e))
return fcp
###
### HANDLERS
###
# This is just the latest entry from pykickstart.handlers.control with all the
# classes we're overriding in place of the defaults.
commandMap = {
"auth": Authconfig,
"authconfig": Authconfig,
"autopart": AutoPart,
"autostep": AutoStep,
"bootloader": Bootloader,
"clearpart": ClearPart,
"dmraid": DmRaid,
"fcoe": Fcoe,
"firewall": Firewall,
"halt": Reboot,
"ignoredisk": IgnoreDisk,
"install": Upgrade,
"iscsi": Iscsi,
"iscsiname": IscsiName,
"keyboard": Keyboard,
"lang": Lang,
"logging": Logging,
"multipath": MultiPath,
"poweroff": Reboot,
"reboot": Reboot,
"rootpw": RootPw,
"selinux": SELinux,
"shutdown": Reboot,
"skipx": SkipX,
"timezone": Timezone,
"upgrade": Upgrade,
"xconfig": XConfig,
"zfcp": ZFCP,
}
dataMap = {
"LogVolData": LogVolData,
"NetworkData": NetworkData,
"PartData": PartitionData,
"RaidData": RaidData,
"VolGroupData": VolGroupData,
}
superclass = returnClassForVersion()
class AnacondaKSHandler(superclass):
def __init__ (self, anaconda):
superclass.__init__(self, commandUpdates=commandMap, dataUpdates=dataMap)
self.anaconda = anaconda
self.onPart = {}
# All the KickstartCommand and KickstartData objects that
# handleCommand returns, so we can later iterate over them and run
# the execute methods. These really should be stored in the order
# they're seen in the kickstart file.
self._dataObjs = []
def add(self, obj):
if isinstance(obj, KickstartCommand):
# Commands can only be run once, and the latest one seen takes
# precedence over any earlier ones.
i = 0
while i < len(self._dataObjs):
if self._dataObjs[i].__class__ == obj.__class__:
self._dataObjs.pop(i)
break
i += 1
self._dataObjs.append(obj)
else:
# Data objects can be seen over and over again.
self._dataObjs.append(obj)
def dispatcher(self, args, lineno):
cmd = args[0]
if self.commands.has_key(cmd):
self.commands[cmd].anaconda = self.anaconda
return superclass.dispatcher(self, args, lineno)
def execute(self):
try:
for obj in filter(lambda o: hasattr(o, "execute"), self._dataObjs):
obj.anaconda = self.anaconda
obj.execute()
except KickstartError as e:
if self.anaconda.intf:
self.anaconda.intf.kickstartErrorWindow(e.__str__())
self.anaconda.intf.shutdown()
sys.exit(0)
else:
stderrLog.critical(_("The following error was found while parsing the kickstart "
"configuration file:\n\n%s") % e)
sys.exit(1)
class AnacondaPreParser(KickstartParser):
# A subclass of KickstartParser that only looks for %pre scripts and
# sets them up to be run. All other scripts and commands are ignored.
def __init__ (self, handler, followIncludes=True, errorsAreFatal=True,
missingIncludeIsFatal=True):
KickstartParser.__init__(self, handler, missingIncludeIsFatal=False)
def handleCommand (self, lineno, args):
pass
def setupSections(self):
self.registerSection(PreScriptSection(self.handler, dataObj=AnacondaKSScript))
self.registerSection(NullSection(self.handler, sectionOpen="%post"))
self.registerSection(NullSection(self.handler, sectionOpen="%traceback"))
self.registerSection(NullSection(self.handler, sectionOpen="%packages"))
class AnacondaKSParser(KickstartParser):
def __init__ (self, handler, followIncludes=True, errorsAreFatal=True,
missingIncludeIsFatal=True):
KickstartParser.__init__(self, handler)
def handleCommand (self, lineno, args):
if not self.handler:
return
retval = KickstartParser.handleCommand(self, lineno, args)
self.handler.add(retval)
return retval
def setupSections(self):
self.registerSection(PreScriptSection(self.handler, dataObj=AnacondaKSScript))
self.registerSection(PostScriptSection(self.handler, dataObj=AnacondaKSScript))
self.registerSection(TracebackScriptSection(self.handler, dataObj=AnacondaKSScript))
self.registerSection(PackageSection(self.handler))
def doKickstart(anaconda):
storage.storageInitialize(anaconda)
# Having initialized storage, we can apply all the other kickstart commands.
# This gives us the ability to check that storage commands are correctly
# formed and refer to actual devices.
anaconda.ksdata.execute()
def preScriptPass(anaconda, file):
# The first pass through kickstart file processing - look for %pre scripts
# and run them. This must come in a separate pass in case a script
# generates an included file that has commands for later.
ksparser = AnacondaPreParser(AnacondaKSHandler(anaconda))
try:
ksparser.readKickstart(file)
except (KickstartValueError, KickstartParseError) as e:
if anaconda.intf:
anaconda.intf.kickstartErrorWindow(e.__str__())
sys.exit(1)
else:
stderrLog.critical(_("The following error was found while parsing the kickstart "
"configuration file:\n\n%s") % e)
sys.exit(1)
except KickstartError as e:
if anaconda.intf:
anaconda.intf.kickstartErrorWindow("Could not open kickstart file or included file named %s" % file)
sys.exit(1)
else:
stderrLog.critical(_("The following error was found while parsing the kickstart "
"configuration file:\n\n%s") % e)
sys.exit(1)
# run %pre scripts
runPreScripts(anaconda, ksparser.handler.scripts)
def parseKickstart(anaconda, file):
# preprocessing the kickstart file has already been handled by loader.
handler = AnacondaKSHandler(anaconda)
ksparser = AnacondaKSParser(handler)
# We need this so all the /dev/disk/* stuff is set up before parsing.
udev_trigger(subsystem="block", action="change")
# So that drives onlined by these can be used in the ks file
storage.iscsi.iscsi().startup()
storage.fcoe.fcoe().startup()
storage.zfcp.ZFCP().startup()
# Note we do NOT call dasd.startup() here, that does not online drives, but
# only checks if they need formatting, which requires zerombr to be known
detect_multipaths()
try:
ksparser.readKickstart(file)
except (KickstartValueError, KickstartParseError) as e:
if anaconda.intf:
anaconda.intf.kickstartErrorWindow(e.__str__())
sys.exit(1)
else:
stderrLog.critical(_("The following error was found while parsing the kickstart "
"configuration file:\n\n%s") % e)
sys.exit(1)
except KickstartError as e:
# We may not have an intf now, but we can do better than just raising
# the exception.
if anaconda.intf:
anaconda.intf.kickstartErrorWindow("Could not open kickstart file or included file named %s" % file)
sys.exit(1)
else:
stderrLog.critical(_("The following error was found while parsing the kickstart "
"configuration file:\n\n%s") % e)
sys.exit(1)
global packagesSeen
packagesSeen = ksparser.getSection("%packages").timesSeen > 0
return handler
def runPostScripts(anaconda):
if not anaconda.ksdata:
return
postScripts = filter (lambda s: s.type == KS_SCRIPT_POST,
anaconda.ksdata.scripts)
if len(postScripts) == 0:
return
# Remove environment variables that cause problems for %post scripts.
for var in ["LIBUSER_CONF"]:
if os.environ.has_key(var):
del(os.environ[var])
log.info("Running kickstart %%post script(s)")
if anaconda.intf is not None:
w = anaconda.intf.waitWindow(_("Post-Installation"),
_("Running post-installation scripts"))
map (lambda s: s.run(ROOT_PATH, flags.serial, anaconda.intf), postScripts)
log.info("All kickstart %%post script(s) have been run")
if anaconda.intf is not None:
w.pop()
def runPreScripts(anaconda, scripts):
preScripts = filter (lambda s: s.type == KS_SCRIPT_PRE, scripts)
if len(preScripts) == 0:
return
log.info("Running kickstart %%pre script(s)")
stdoutLog.info(_("Running pre-installation scripts"))
map (lambda s: s.run("/", flags.serial, anaconda.intf), preScripts)
log.info("All kickstart %%pre script(s) have been run")
def runTracebackScripts(anaconda):
log.info("Running kickstart %%traceback script(s)")
for script in filter (lambda s: s.type == KS_SCRIPT_TRACEBACK,
anaconda.ksdata.scripts):
script.run("/", flags.serial)
log.info("All kickstart %%traceback script(s) have been run")
def selectPackages(anaconda):
ksdata = anaconda.ksdata
ignoreAll = False
# If no %packages header was seen, use the installclass's default group
# selections. This can also be explicitly specified with %packages
# --default. Otherwise, select whatever was given (even if it's nothing).
if not packagesSeen or ksdata.packages.default:
anaconda.instClass.setGroupSelection(anaconda)
if not packagesSeen:
return
for pkg in ksdata.packages.packageList:
num = anaconda.backend.selectPackage(pkg)
if ksdata.packages.handleMissing == KS_MISSING_IGNORE or ignoreAll:
continue
if num > 0:
continue
rc = anaconda.intf.messageWindow(_("Missing Package"),
_("You have specified that the "
"package '%s' should be installed. "
"This package does not exist. "
"Would you like to continue or "
"abort this installation?") %(pkg,),
type="custom",
custom_buttons=[_("_Abort"),
_("_Ignore All"),
_("_Continue")])
if rc == 0:
sys.exit(1)
elif rc == 1:
ignoreAll = True
ksdata.packages.groupList.insert(0, Group("Core"))
if ksdata.packages.addBase:
ksdata.packages.groupList.insert(1, Group("Base"))
else:
log.warning("not adding Base group")
for grp in ksdata.packages.groupList:
default = False
optional = False
if grp.include == GROUP_DEFAULT:
default = True
elif grp.include == GROUP_ALL:
default = True
optional = True
try:
anaconda.backend.selectGroup(grp.name, (default, optional))
except NoSuchGroup as e:
if ksdata.packages.handleMissing == KS_MISSING_IGNORE or ignoreAll:
pass
else:
rc = anaconda.intf.messageWindow(_("Missing Group"),
_("You have specified that the "
"group '%s' should be installed. "
"This group does not exist. "
"Would you like to continue or "
"abort this installation?")
%(grp.name,),
type="custom",
custom_buttons=[_("_Abort"),
_("_Ignore All"),
_("_Continue")])
if rc == 0:
sys.exit(1)
elif rc == 1:
ignoreAll = True
map(anaconda.backend.deselectPackage, ksdata.packages.excludedList)
map(lambda g: anaconda.backend.deselectGroup(g.name),
ksdata.packages.excludedGroupList)
def setSteps(anaconda):
def havePackages(packages):
return len(packages.groupList) > 0 or len(packages.packageList) > 0 or \
len(packages.excludedList) > 0 or len(packages.excludedGroupList) > 0
dispatch = anaconda.dispatch
ksdata = anaconda.ksdata
if ksdata.upgrade.upgrade:
upgrade.setSteps(anaconda)
# we have no way to specify migrating yet
dispatch.skip_steps("upgrademigfind")
dispatch.skip_steps("upgrademigratefs")
dispatch.skip_steps("upgradecontinue")
dispatch.skip_steps("findinstall")
dispatch.skip_steps("language")
dispatch.skip_steps("keyboard")
dispatch.skip_steps("betanag")
else:
anaconda.instClass.setSteps(anaconda)
dispatch.skip_steps("findrootparts")
dispatch.request_steps("kickstart")
dispatch.skip_steps("betanag")
dispatch.skip_steps("network")
# Storage is initialized for us right when kickstart processing starts.
dispatch.skip_steps("storageinit")
# Make sure to automatically reboot if told to.
if ksdata.reboot.action in [KS_REBOOT, KS_SHUTDOWN]:
dispatch.skip_steps("complete")
# If the package section included anything, skip group selection.
if ksdata.upgrade.upgrade:
dispatch.skip_steps("tasksel", "group-selection")
# Special check for this, since it doesn't make any sense.
if packagesSeen:
log.warning("Ignoring contents of %packages section due to upgrade.")
elif havePackages(ksdata.packages):
dispatch.skip_steps("tasksel", "group-selection")
else:
if packagesSeen:
dispatch.skip_steps("tasksel", "group-selection")
else:
dispatch.request_steps("tasksel")
if ksdata.ignoredisk.interactive:
dispatch.request_steps("filtertype", "filter")
else:
# Since ignoredisk is optional and not specifying it means you want to
# consider all possible disks, we should not stop on the filter steps
# unless we've been told to.
dispatch.skip_steps("filtertype", "filter")
# Text mode doesn't have all the steps that graphical mode does, so we
# can't stop and prompt for missing information. Make sure we've got
# everything that would be provided by a missing section now and error
# out if we don't.
if anaconda.displayMode == "t":
missingSteps = [("bootloader", "Bootloader configuration"),
("filter", "Disks to use in installation"),
("cleardiskssel", "Disks to clear"),
("group-selection", "Package selection")]
errors = []
for (step, msg) in missingSteps:
if dispatch.step_enabled(step):
errors.append(msg)
if len(errors) > 0:
anaconda.intf.kickstartErrorWindow(_("The kickstart configuration "
"file is missing required information that anaconda cannot "
"prompt for. Please add the following sections and try "
"again:\n%s") % ", ".join(errors))
sys.exit(0)
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