# __init__.py # Entry point for anaconda's storage configuration module. # # Copyright (C) 2009 Red Hat, Inc. # # This copyrighted material is made available to anyone wishing to use, # modify, copy, or redistribute it subject to the terms and conditions of # the GNU General Public License v.2, or (at your option) any later version. # This program is distributed in the hope that it will be useful, but WITHOUT # ANY WARRANTY expressed or implied, including the implied warranties 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, write to the # Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA # 02110-1301, USA. Any Red Hat trademarks that are incorporated in the # source code or documentation are not subject to the GNU General Public # License and may only be used or replicated with the express permission of # Red Hat, Inc. # # Red Hat Author(s): Dave Lehman # import os import time import stat import errno import sys import statvfs import nss.nss import parted import isys import iutil from constants import * from pykickstart.constants import * from flags import flags import storage_log from errors import * from devices import * from devicetree import DeviceTree from deviceaction import * from formats import getFormat from formats import get_device_format_class from formats import get_default_filesystem_type from devicelibs.lvm import safeLvmName from devicelibs.dm import name_from_dm_node from devicelibs.crypto import generateBackupPassphrase from devicelibs.mpath import MultipathConfigWriter from devicelibs.edd import get_edd_dict from udev import * import iscsi import fcoe import zfcp import dasd import shelve import contextlib import gettext _ = lambda x: gettext.ldgettext("anaconda", x) import logging log = logging.getLogger("storage") def storageInitialize(anaconda): storage = anaconda.storage storage.shutdown() if anaconda.dir == DISPATCH_BACK: return # touch /dev/.in_sysinit so that /lib/udev/rules.d/65-md-incremental.rules # does not mess with any mdraid sets open("/dev/.in_sysinit", "w") # XXX I don't understand why I have to do this, but this is needed to # populate the udev db udev_trigger(subsystem="block", action="change") # Before we set up the storage system, we need to know which disks to # ignore, etc. Luckily that's all in the kickstart data. if anaconda.ksdata: anaconda.storage.zeroMbr = anaconda.ksdata.zerombr.zerombr anaconda.storage.ignoredDisks = anaconda.ksdata.ignoredisk.ignoredisk anaconda.storage.exclusiveDisks = anaconda.ksdata.ignoredisk.onlyuse if anaconda.ksdata.clearpart.type is not None: anaconda.storage.clearPartType = anaconda.ksdata.clearpart.type anaconda.storage.clearPartDisks = anaconda.ksdata.clearpart.drives if anaconda.ksdata.clearpart.initAll: anaconda.storage.reinitializeDisks = anaconda.ksdata.clearpart.initAll anaconda.intf.resetInitializeDiskQuestion() anaconda.intf.resetReinitInconsistentLVMQuestion() # Set up the protected partitions list now. if anaconda.protected: storage.protectedDevSpecs.extend(anaconda.protected) storage.reset() if not flags.livecdInstall and not storage.protectedDevices: if anaconda.upgrade: return else: anaconda.intf.messageWindow(_("Unknown Device"), _("The installation source given by device %s " "could not be found. Please check your " "parameters and try again.") % devspec, type="custom", custom_buttons = [_("_Exit installer")]) sys.exit(1) else: storage.reset() # dispatch.py helper function def storageComplete(anaconda): if anaconda.dir == DISPATCH_BACK: rc = anaconda.intf.messageWindow(_("Installation cannot continue."), _("The storage configuration you have " "chosen has already been activated. You " "can no longer return to the disk editing " "screen. Would you like to continue with " "the installation process?"), type = "yesno") if rc == 0: sys.exit(0) return DISPATCH_FORWARD devs = anaconda.storage.devicetree.getDevicesByType("luks/dm-crypt") existing_luks = False new_luks = False for dev in devs: if dev.exists: existing_luks = True else: new_luks = True if (anaconda.storage.encryptedAutoPart or new_luks) and \ not anaconda.storage.encryptionPassphrase: while True: (passphrase, retrofit) = anaconda.intf.getLuksPassphrase(preexist=existing_luks) if passphrase: anaconda.storage.encryptionPassphrase = passphrase anaconda.storage.encryptionRetrofit = retrofit break else: rc = anaconda.intf.messageWindow(_("Encrypt device?"), _("You specified block device encryption " "should be enabled, but you have not " "supplied a passphrase. If you do not " "go back and provide a passphrase, " "block device encryption will be " "disabled."), type="custom", custom_buttons=[_("Back"), _("Continue")], default=0) if rc == 1: log.info("user elected to not encrypt any devices.") undoEncryption(anaconda.storage) anaconda.storage.encryptedAutoPart = False break if anaconda.storage.encryptionPassphrase: for dev in anaconda.storage.devices: if dev.format.type == "luks" and not dev.format.exists: dev.format.passphrase = anaconda.storage.encryptionPassphrase if anaconda.ksdata: return rc = anaconda.intf.messageWindow(_("Writing storage configuration to disk"), _("The partitioning options you have selected " "will now be written to disk. Any " "data on deleted or reformatted partitions " "will be lost."), type = "custom", custom_icon="warning", custom_buttons=[_("Go _back"), _("_Write changes to disk")], default = 0) # Make sure that all is down, even the disks that we setup after popluate. anaconda.storage.devicetree.teardownAll() if rc == 0: return DISPATCH_BACK def writeEscrowPackets(anaconda): escrowDevices = filter(lambda d: d.format.type == "luks" and \ d.format.escrow_cert, anaconda.storage.devices) if not escrowDevices: return log.debug("escrow: writeEscrowPackets start") wait_win = anaconda.intf.waitWindow(_("Running..."), _("Storing encryption keys")) nss.nss.nss_init_nodb() # Does nothing if NSS is already initialized backupPassphrase = generateBackupPassphrase() try: for device in escrowDevices: log.debug("escrow: device %s: %s" % (repr(device.path), repr(device.format.type))) device.format.escrow(anaconda.rootPath + "/root", backupPassphrase) wait_win.pop() except (IOError, RuntimeError) as e: wait_win.pop() anaconda.intf.messageWindow(_("Error"), _("Error storing an encryption key: " "%s\n") % str(e), type="custom", custom_icon="error", custom_buttons=[_("_Exit installer")]) sys.exit(1) log.debug("escrow: writeEscrowPackets done") def undoEncryption(storage): for device in storage.devicetree.getDevicesByType("luks/dm-crypt"): if device.exists: continue slave = device.slave format = device.format # set any devices that depended on the luks device to now depend on # the former slave device for child in storage.devicetree.getChildren(device): child.parents.remove(device) device.removeChild() child.parents.append(slave) storage.devicetree.registerAction(ActionDestroyFormat(device)) storage.devicetree.registerAction(ActionDestroyDevice(device)) storage.devicetree.registerAction(ActionDestroyFormat(slave)) storage.devicetree.registerAction(ActionCreateFormat(slave, format)) class Storage(object): def __init__(self, anaconda): self.anaconda = anaconda # storage configuration variables self.ignoredDisks = [] self.exclusiveDisks = [] self.doAutoPart = False self.clearPartType = None self.clearPartDisks = [] self.encryptedAutoPart = False self.encryptionPassphrase = None self.escrowCertificates = {} self.autoPartEscrowCert = None self.autoPartAddBackupPassphrase = False self.encryptionRetrofit = False self.reinitializeDisks = False self.zeroMbr = None self.protectedDevSpecs = [] self.autoPartitionRequests = [] self.eddDict = {} self.__luksDevs = {} self.iscsi = iscsi.iscsi() self.fcoe = fcoe.fcoe() self.zfcp = zfcp.ZFCP() self.dasd = dasd.DASD() self._nextID = 0 self.defaultFSType = get_default_filesystem_type() self.defaultBootFSType = get_default_filesystem_type(boot=True) self._dumpFile = "/tmp/storage.state" # these will both be empty until our reset method gets called self.devicetree = DeviceTree(intf=self.anaconda.intf, ignored=self.ignoredDisks, exclusive=self.exclusiveDisks, type=self.clearPartType, clear=self.clearPartDisks, reinitializeDisks=self.reinitializeDisks, protected=self.protectedDevSpecs, zeroMbr=self.zeroMbr, passphrase=self.encryptionPassphrase, luksDict=self.__luksDevs, iscsi=self.iscsi, dasd=self.dasd) self.fsset = FSSet(self.devicetree, self.anaconda.rootPath) def doIt(self): self.devicetree.processActions() self.doEncryptionPassphraseRetrofits() # now set the boot partition's flag try: boot = self.anaconda.platform.bootDevice() if boot.type == "mdarray": bootDevs = boot.parents else: bootDevs = [boot] except DeviceError: bootDevs = [] else: for dev in bootDevs: if hasattr(dev, "bootable"): # Dos labels can only have one partition marked as active # and unmarking ie the windows partition is not a good idea skip = False if dev.disk.format.partedDisk.type == "msdos": for p in dev.disk.format.partedDisk.partitions: if p.type == parted.PARTITION_NORMAL and \ p.getFlag(parted.PARTITION_BOOT): skip = True break if skip: log.info("not setting boot flag on %s as there is" "another active partition" % dev.name) continue log.info("setting boot flag on %s" % dev.name) dev.bootable = True dev.disk.setup() dev.disk.format.commitToDisk() self.dumpState("final") @property def nextID(self): id = self._nextID self._nextID += 1 return id def shutdown(self): try: self.devicetree.teardownAll() except Exception as e: log.error("failure tearing down device tree: %s" % e) self.zfcp.shutdown() # TODO: iscsi.shutdown() def reset(self): """ Reset storage configuration to reflect actual system state. This should rescan from scratch but not clobber user-obtained information like passphrases, iscsi config, &c """ # save passphrases for luks devices so we don't have to reprompt self.encryptionPassphrase = None for device in self.devices: if device.format.type == "luks" and device.format.exists: self.__luksDevs[device.format.uuid] = device.format._LUKS__passphrase w = self.anaconda.intf.waitWindow(_("Finding Devices"), _("Finding storage devices")) self.iscsi.startup(self.anaconda.intf) self.fcoe.startup(self.anaconda.intf) self.zfcp.startup() self.dasd.startup(intf=self.anaconda.intf, zeroMbr=self.zeroMbr) if self.anaconda.upgrade: clearPartType = CLEARPART_TYPE_NONE else: clearPartType = self.clearPartType self.devicetree = DeviceTree(intf=self.anaconda.intf, ignored=self.ignoredDisks, exclusive=self.exclusiveDisks, type=clearPartType, clear=self.clearPartDisks, reinitializeDisks=self.reinitializeDisks, protected=self.protectedDevSpecs, zeroMbr=self.zeroMbr, passphrase=self.encryptionPassphrase, luksDict=self.__luksDevs, iscsi=self.iscsi, dasd=self.dasd) self.devicetree.populate() self.fsset = FSSet(self.devicetree, self.anaconda.rootPath) self.eddDict = get_edd_dict(self.partitioned) self.anaconda.rootParts = None self.anaconda.upgradeRoot = None self.dumpState("initial") w.pop() @property def devices(self): """ A list of all the devices in the device tree. """ devices = self.devicetree.devices devices.sort(key=lambda d: d.name) return devices @property def disks(self): """ A list of the disks in the device tree. Ignored disks are not included, as are disks with no media present. This is based on the current state of the device tree and does not necessarily reflect the actual on-disk state of the system's disks. """ disks = [] for device in self.devicetree.devices: if device.isDisk: if not device.mediaPresent: log.info("Skipping disk: %s: No media present" % device.name) continue disks.append(device) disks.sort(key=lambda d: d.name, cmp=self.compareDisks) return disks @property def partitioned(self): """ A list of the partitioned devices in the device tree. Ignored devices are not included, nor disks with no media present. Devices of types for which partitioning is not supported are also not included. This is based on the current state of the device tree and does not necessarily reflect the actual on-disk state of the system's disks. """ partitioned = [] for device in self.devicetree.devices: if not device.partitioned: continue if not device.mediaPresent: log.info("Skipping device: %s: No media present" % device.name) continue partitioned.append(device) partitioned.sort(key=lambda d: d.name) return partitioned @property def partitions(self): """ A list of the partitions in the device tree. This is based on the current state of the device tree and does not necessarily reflect the actual on-disk state of the system's disks. """ partitions = self.devicetree.getDevicesByInstance(PartitionDevice) partitions.sort(key=lambda d: d.name) return partitions @property def vgs(self): """ A list of the LVM Volume Groups in the device tree. This is based on the current state of the device tree and does not necessarily reflect the actual on-disk state of the system's disks. """ vgs = self.devicetree.getDevicesByType("lvmvg") vgs.sort(key=lambda d: d.name) return vgs @property def lvs(self): """ A list of the LVM Logical Volumes in the device tree. This is based on the current state of the device tree and does not necessarily reflect the actual on-disk state of the system's disks. """ lvs = self.devicetree.getDevicesByType("lvmlv") lvs.sort(key=lambda d: d.name) return lvs @property def pvs(self): """ A list of the LVM Physical Volumes in the device tree. This is based on the current state of the device tree and does not necessarily reflect the actual on-disk state of the system's disks. """ devices = self.devicetree.devices pvs = [d for d in devices if d.format.type == "lvmpv"] pvs.sort(key=lambda d: d.name) return pvs def unusedPVs(self, vg=None): unused = [] for pv in self.pvs: used = False for _vg in self.vgs: if _vg.dependsOn(pv) and _vg != vg: used = True break elif _vg == vg: break if not used: unused.append(pv) return unused @property def mdarrays(self): """ A list of the MD arrays in the device tree. This is based on the current state of the device tree and does not necessarily reflect the actual on-disk state of the system's disks. """ arrays = self.devicetree.getDevicesByType("mdarray") arrays.sort(key=lambda d: d.name) return arrays @property def mdcontainers(self): """ A list of the MD containers in the device tree. """ arrays = self.devicetree.getDevicesByType("mdcontainer") arrays.sort(key=lambda d: d.name) return arrays @property def mdmembers(self): """ A list of the MD member devices in the device tree. This is based on the current state of the device tree and does not necessarily reflect the actual on-disk state of the system's disks. """ devices = self.devicetree.devices members = [d for d in devices if d.format.type == "mdmember"] members.sort(key=lambda d: d.name) return members def unusedMDMembers(self, array=None): unused = [] for member in self.mdmembers: used = False for _array in self.mdarrays + self.mdcontainers: if _array.dependsOn(member) and _array != array: used = True break elif _array == array: break if not used: unused.append(member) return unused @property def unusedMDMinors(self): """ Return a list of unused minors for use in RAID. """ raidMinors = range(0,32) for array in self.mdarrays + self.mdcontainers: if array.minor is not None and array.minor in raidMinors: raidMinors.remove(array.minor) return raidMinors @property def swaps(self): """ A list of the swap devices in the device tree. This is based on the current state of the device tree and does not necessarily reflect the actual on-disk state of the system's disks. """ devices = self.devicetree.devices swaps = [d for d in devices if d.format.type == "swap"] swaps.sort(key=lambda d: d.name) return swaps @property def protectedDevices(self): devices = self.devicetree.devices protected = [d for d in devices if d.protected] protected.sort(key=lambda d: d.name) return protected def exceptionDisks(self): """ Return a list of removable devices to save exceptions to. FIXME: This raises the problem that the device tree can be in a state that does not reflect that actual current state of the system at any given point. We need a way to provide direct scanning of disks, partitions, and filesystems without relying on the larger objects' correctness. Also, we need to find devices that have just been made available for the purpose of storing the exception report. """ # When a usb is connected from before the start of the installation, # it is not correctly detected. udev_trigger(subsystem="block", action="change") self.reset() dests = [] for disk in self.disks: if not disk.removable and \ disk.format is not None and \ disk.format.mountable: dests.append([disk.path, disk.name]) for part in self.partitions: if not part.disk.removable: continue elif part.partedPartition.active and \ not part.partedPartition.getFlag(parted.PARTITION_RAID) and \ not part.partedPartition.getFlag(parted.PARTITION_LVM) and \ part.format is not None and part.format.mountable: dests.append([part.path, part.name]) return dests def deviceImmutable(self, device, ignoreProtected=False): """ Return any reason the device cannot be modified/removed. Return False if the device can be removed. Devices that cannot be removed include: - protected partitions - devices that are part of an md array or lvm vg - extended partition containing logical partitions that meet any of the above criteria """ if not isinstance(device, Device): raise ValueError("arg1 (%s) must be a Device instance" % device) if not ignoreProtected and device.protected: return _("This partition is holding the data for the hard " "drive install.") elif isinstance(device, PartitionDevice) and device.isProtected: # LDL formatted DASDs always have one partition, you'd have to # reformat the DASD in CDL mode to get rid of it return _("You cannot delete a partition of a LDL formatted " "DASD.") elif device.format.type == "mdmember": for array in self.mdarrays + self.mdcontainers: if array.dependsOn(device): if array.minor is not None: return _("This device is part of the RAID " "device %s.") % (array.path,) else: return _("This device is part of a RAID device.") elif device.format.type == "lvmpv": for vg in self.vgs: if vg.dependsOn(device): if vg.name is not None: return _("This device is part of the LVM " "volume group '%s'.") % (vg.name,) else: return _("This device is part of a LVM volume " "group.") elif device.format.type == "luks": try: luksdev = self.devicetree.getChildren(device)[0] except IndexError: pass else: return self.deviceImmutable(luksdev) elif isinstance(device, PartitionDevice) and device.isExtended: reasons = {} for dep in self.deviceDeps(device): reason = self.deviceImmutable(dep) if reason: reasons[dep.path] = reason if reasons: msg = _("This device is an extended partition which " "contains logical partitions that cannot be " "deleted:\n\n") for dev in reasons: msg += "%s: %s" % (dev, reasons[dev]) return msg for i in self.devicetree.immutableDevices: if i[0] == device.name: return i[1] return False def deviceDeps(self, device): return self.devicetree.getDependentDevices(device) def newPartition(self, *args, **kwargs): """ Return a new PartitionDevice instance for configuring. """ if kwargs.has_key("fmt_type"): kwargs["format"] = getFormat(kwargs.pop("fmt_type"), mountpoint=kwargs.pop("mountpoint", None), **kwargs.pop("fmt_args", {})) if kwargs.has_key("disks"): parents = kwargs.pop("disks") if isinstance(parents, Device): kwargs["parents"] = [parents] else: kwargs["parents"] = parents if kwargs.has_key("name"): name = kwargs.pop("name") else: name = "req%d" % self.nextID return PartitionDevice(name, *args, **kwargs) def newMDArray(self, *args, **kwargs): """ Return a new MDRaidArrayDevice instance for configuring. """ if kwargs.has_key("fmt_type"): kwargs["format"] = getFormat(kwargs.pop("fmt_type"), mountpoint=kwargs.pop("mountpoint", None)) if kwargs.has_key("minor"): kwargs["minor"] = int(kwargs["minor"]) else: kwargs["minor"] = self.unusedMDMinors[0] if kwargs.has_key("name"): name = kwargs.pop("name") else: name = "md%d" % kwargs["minor"] return MDRaidArrayDevice(name, *args, **kwargs) def newVG(self, *args, **kwargs): """ Return a new LVMVolumeGroupDevice instance. """ pvs = kwargs.pop("pvs", []) for pv in pvs: if pv not in self.devices: raise ValueError("pv is not in the device tree") if kwargs.has_key("name"): name = kwargs.pop("name") else: name = self.createSuggestedVGName(self.anaconda.network) if name in [d.name for d in self.devices]: raise ValueError("name already in use") return LVMVolumeGroupDevice(name, pvs, *args, **kwargs) def newLV(self, *args, **kwargs): """ Return a new LVMLogicalVolumeDevice instance. """ if kwargs.has_key("vg"): vg = kwargs.pop("vg") mountpoint = kwargs.pop("mountpoint", None) if kwargs.has_key("fmt_type"): kwargs["format"] = getFormat(kwargs.pop("fmt_type"), mountpoint=mountpoint) if kwargs.has_key("name"): name = kwargs.pop("name") else: if kwargs.get("format") and kwargs["format"].type == "swap": swap = True else: swap = False name = self.createSuggestedLVName(vg, swap=swap, mountpoint=mountpoint) if name in [d.name for d in self.devices]: raise ValueError("name already in use") return LVMLogicalVolumeDevice(name, vg, *args, **kwargs) def createDevice(self, device): """ Schedule creation of a device. TODO: We could do some things here like assign the next available raid minor if one isn't already set. """ self.devicetree.registerAction(ActionCreateDevice(device)) if device.format.type: self.devicetree.registerAction(ActionCreateFormat(device)) def destroyDevice(self, device): """ Schedule destruction of a device. """ if device.format.exists and device.format.type: # schedule destruction of any formatting while we're at it self.devicetree.registerAction(ActionDestroyFormat(device)) action = ActionDestroyDevice(device) self.devicetree.registerAction(action) def formatDevice(self, device, format): """ Schedule formatting of a device. """ self.devicetree.registerAction(ActionDestroyFormat(device)) self.devicetree.registerAction(ActionCreateFormat(device, format)) def formatByDefault(self, device): """Return whether the device should be reformatted by default.""" formatlist = ['/boot', '/var', '/tmp', '/usr'] exceptlist = ['/home', '/usr/local', '/opt', '/var/www'] if not device.format.linuxNative: return False if device.format.mountable: if not device.format.mountpoint: return False if device.format.mountpoint == "/" or \ device.format.mountpoint in formatlist: return True for p in formatlist: if device.format.mountpoint.startswith(p): for q in exceptlist: if device.format.mountpoint.startswith(q): return False return True elif device.format.type == "swap": return True # be safe for anything else and default to off return False def extendedPartitionsSupported(self): """ Return whether any disks support extended partitions.""" for disk in self.partitioned: if disk.format.partedDisk.supportsFeature(parted.DISK_TYPE_EXTENDED): return True return False def createSuggestedVGName(self, network): """ Return a reasonable, unused VG name. """ # try to create a volume group name incorporating the hostname hn = network.hostname vgnames = [vg.name for vg in self.vgs] if hn is not None and hn != '': if hn == 'localhost' or hn == 'localhost.localdomain': vgtemplate = "VolGroup" elif hn.find('.') != -1: template = "vg_%s" % (hn.split('.')[0].lower(),) vgtemplate = safeLvmName(template) else: template = "vg_%s" % (hn.lower(),) vgtemplate = safeLvmName(template) else: vgtemplate = "VolGroup" if vgtemplate not in vgnames and \ vgtemplate not in lvm.lvm_vg_blacklist: return vgtemplate else: i = 0 while 1: tmpname = "%s%02d" % (vgtemplate, i,) if not tmpname in vgnames and \ tmpname not in lvm.lvm_vg_blacklist: break i += 1 if i > 99: tmpname = "" return tmpname def createSuggestedLVName(self, vg, swap=None, mountpoint=None): """ Return a suitable, unused name for a new logical volume. """ # FIXME: this is not at all guaranteed to work if mountpoint: # try to incorporate the mountpoint into the name if mountpoint == '/': lvtemplate = 'lv_root' else: if mountpoint.startswith("/"): template = "lv_%s" % mountpoint[1:] else: template = "lv_%s" % (mountpoint,) lvtemplate = safeLvmName(template) else: if swap: if len([s for s in self.swaps if s in vg.lvs]): idx = len([s for s in self.swaps if s in vg.lvs]) while True: lvtemplate = "lv_swap%02d" % idx if lvtemplate in [lv.lvname for lv in vg.lvs]: idx += 1 else: break else: lvtemplate = "lv_swap" else: idx = len(vg.lvs) while True: lvtemplate = "LogVol%02d" % idx if lvtemplate in [l.lvname for l in vg.lvs]: idx += 1 else: break return lvtemplate def doEncryptionPassphraseRetrofits(self): """ Add the global passphrase to all preexisting LUKS devices. This establishes a common passphrase for all encrypted devices in the system so that users only have to enter one passphrase during system boot. """ if not self.encryptionRetrofit: return for device in self.devices: if device.format.type == "luks" and \ device.format._LUKS__passphrase != self.encryptionPassphrase: log.info("adding new passphrase to preexisting encrypted " "device %s" % device.path) try: device.format.addPassphrase(self.encryptionPassphrase) except CryptoError: log.error("failed to add new passphrase to existing " "device %s" % device.path) def sanityCheck(self): """ Run a series of tests to verify the storage configuration. This function is called at the end of partitioning so that we can make sure you don't have anything silly (like no /, a really small /, etc). Returns (errors, warnings) where each is a list of strings. """ checkSizes = [('/usr', 250), ('/tmp', 50), ('/var', 384), ('/home', 100), ('/boot', 75)] warnings = [] errors = [] mustbeonlinuxfs = ['/', '/var', '/tmp', '/usr', '/home', '/usr/share', '/usr/lib'] mustbeonroot = ['/bin','/dev','/sbin','/etc','/lib','/root', '/mnt', 'lost+found', '/proc'] filesystems = self.mountpoints root = self.fsset.rootDevice swaps = self.fsset.swapDevices try: boot = self.anaconda.platform.bootDevice() except DeviceError: boot = None if not root: errors.append(_("You have not defined a root partition (/), " "which is required for installation of %s " "to continue.") % (productName,)) if root and root.size < 250: warnings.append(_("Your root partition is less than 250 " "megabytes which is usually too small to " "install %s.") % (productName,)) if (root and root.size < self.anaconda.backend.getMinimumSizeMB("/")): errors.append(_("Your / partition is less than %(min)s " "MB which is lower than recommended " "for a normal %(productName)s install.") % {'min': self.anaconda.backend.getMinimumSizeMB("/"), 'productName': productName}) # livecds have to have the rootfs type match up if (root and self.anaconda.backend.rootFsType and root.format.type != self.anaconda.backend.rootFsType): errors.append(_("Your / partition does not match the " "the live image you are installing from. " "It must be formatted as %s.") % (self.anaconda.backend.rootFsType,)) for (mount, size) in checkSizes: if mount in filesystems and filesystems[mount].size < size: warnings.append(_("Your %(mount)s partition is less than " "%(size)s megabytes which is lower than " "recommended for a normal %(productName)s " "install.") % {'mount': mount, 'size': size, 'productName': productName}) usb_disks = [] firewire_disks = [] for disk in self.disks: if isys.driveUsesModule(disk.name, ["usb-storage", "ub"]): usb_disks.append(disk) elif isys.driveUsesModule(disk.name, ["sbp2", "firewire-sbp2"]): firewire_disks.append(disk) uses_usb = False uses_firewire = False for device in filesystems.values(): for disk in usb_disks: if device.dependsOn(disk): uses_usb = True break for disk in firewire_disks: if device.dependsOn(disk): uses_firewire = True break if uses_usb: warnings.append(_("Installing on a USB device. This may " "or may not produce a working system.")) if uses_firewire: warnings.append(_("Installing on a FireWire device. This may " "or may not produce a working system.")) errors.extend(self.anaconda.platform.checkBootRequest(boot)) if not swaps: if iutil.memInstalled() < isys.EARLY_SWAP_RAM: errors.append(_("You have not specified a swap partition. " "Due to the amount of memory present, a " "swap partition is required to complete " "installation.")) else: warnings.append(_("You have not specified a swap partition. " "Although not strictly required in all cases, " "it will significantly improve performance " "for most installations.")) for (mountpoint, dev) in filesystems.items(): if mountpoint in mustbeonroot: errors.append(_("This mount point is invalid. The %s directory must " "be on the / file system.") % mountpoint) if mountpoint in mustbeonlinuxfs and (not dev.format.mountable or not dev.format.linuxNative): errors.append(_("The mount point %s must be on a linux file system.") % mountpoint) return (errors, warnings) def isProtected(self, device): """ Return True is the device is protected. """ return device.protected def checkNoDisks(self): """Check that there are valid disk devices.""" if not self.disks: self.anaconda.intf.messageWindow(_("No Drives Found"), _("An error has occurred - no valid devices were " "found on which to create new file systems. " "Please check your hardware for the cause " "of this problem.")) return True return False def dumpState(self, suffix): """ Dump the current device list to the storage shelf. """ key = "devices.%d.%s" % (time.time(), suffix) with contextlib.closing(shelve.open(self._dumpFile)) as shelf: shelf[key] = [d.dict for d in self.devices] def write(self, instPath): self.fsset.write(instPath) self.iscsi.write(instPath, self.anaconda) self.fcoe.write(instPath, self.anaconda) self.zfcp.write(instPath) self.dasd.write(instPath) def writeKS(self, f): def useExisting(lst): foundCreateDevice = False foundCreateFormat = False for l in lst: if isinstance(l, ActionCreateDevice): foundCreateDevice = True elif isinstance(l, ActionCreateFormat): foundCreateFormat = True return (foundCreateFormat and not foundCreateDevice) log.warning("Storage.writeKS not completely implemented") f.write("# The following is the partition information you requested\n") f.write("# Note that any partitions you deleted are not expressed\n") f.write("# here so unless you clear all partitions first, this is\n") f.write("# not guaranteed to work\n") # clearpart if self.clearPartType is None or self.clearPartType == CLEARPART_TYPE_NONE: args = ["--none"] elif self.clearPartType == CLEARPART_TYPE_LINUX: args = ["--linux"] else: args = ["--all"] if self.clearPartDisks: args += ["--drives=%s" % ",".join(self.clearPartDisks)] if self.reinitializeDisks: args += ["--initlabel"] f.write("#clearpart %s\n" % " ".join(args)) # ignoredisks if self.ignoredDisks: f.write("#ignoredisk --drives=%s\n" % ",".join(self.ignoredDisks)) elif self.exclusiveDisks: f.write("#ignoredisk --only-use=%s\n" % ",".join(self.exclusiveDisks)) # the various partitioning commands dict = {} actions = filter(lambda x: x.device.format.type != "luks", self.devicetree.findActions(type="create")) for action in actions: if dict.has_key(action.device.path): dict[action.device.path].append(action) else: dict[action.device.path] = [action] for device in self.devices: # If there's no action for the given device, it must be one # we are reusing. if not dict.has_key(device.path): noformat = True preexisting = True else: noformat = False preexisting = useExisting(dict[device.path]) device.writeKS(f, preexisting=preexisting, noformat=noformat) f.write("\n") self.iscsi.writeKS(f) self.fcoe.writeKS(f) self.zfcp.writeKS(f) def turnOnSwap(self, upgrading=None): self.fsset.turnOnSwap(self.anaconda, upgrading=upgrading) def mountFilesystems(self, raiseErrors=None, readOnly=None, skipRoot=False): self.fsset.mountFilesystems(self.anaconda, raiseErrors=raiseErrors, readOnly=readOnly, skipRoot=skipRoot) def umountFilesystems(self, ignoreErrors=True, swapoff=True): self.fsset.umountFilesystems(ignoreErrors=ignoreErrors, swapoff=swapoff) def parseFSTab(self): self.fsset.parseFSTab() def mkDevRoot(self): self.fsset.mkDevRoot() def createSwapFile(self, device, size): self.fsset.createSwapFile(device, size) @property def fsFreeSpace(self): return self.fsset.fsFreeSpace() @property def mtab(self): return self.fsset.mtab() @property def mountpoints(self): return self.fsset.mountpoints @property def migratableDevices(self): return self.fsset.migratableDevices @property def rootDevice(self): return self.fsset.rootDevice def compareDisks(self, first, second): if self.eddDict.has_key(first) and self.eddDict.has_key(second): one = self.eddDict[first] two = self.eddDict[second] if (one < two): return -1 elif (one > two): return 1 # if one is in the BIOS and the other not prefer the one in the BIOS if self.eddDict.has_key(first): return -1 if self.eddDict.has_key(second): return 1 if first.startswith("hd"): type1 = 0 elif first.startswith("sd"): type1 = 1 elif (first.startswith("vd") or first.startswith("xvd")): type1 = -1 else: type1 = 2 if second.startswith("hd"): type2 = 0 elif second.startswith("sd"): type2 = 1 elif (second.startswith("vd") or second.startswith("xvd")): type2 = -1 else: type2 = 2 if (type1 < type2): return -1 elif (type1 > type2): return 1 else: len1 = len(first) len2 = len(second) if (len1 < len2): return -1 elif (len1 > len2): return 1 else: if (first < second): return -1 elif (first > second): return 1 return 0 def getReleaseString(mountpoint): relName = None relVer = None filename = "%s/etc/system-release" % mountpoint if os.access(filename, os.R_OK): with open(filename) as f: relstr = f.readline().strip() relName = ' '.join(relstr.split(" ")[:2]) relVer = relstr.split()[-1] return (relName, relVer) def findExistingRootDevices(anaconda, upgradeany=False): """ Return a list of all root filesystems in the device tree. """ rootDevs = [] if not os.path.exists(anaconda.rootPath): iutil.mkdirChain(anaconda.rootPath) roots = [] for device in anaconda.storage.devicetree.leaves: if not device.format.linuxNative or not device.format.mountable: continue if device.protected: # can't upgrade the part holding hd: media so why look at it? continue try: device.setup() except Exception as e: log.warning("setup of %s failed: %s" % (device.name, e)) continue try: device.format.mount(options="ro", mountpoint=anaconda.rootPath) except Exception as e: log.warning("mount of %s as %s failed: %s" % (device.name, device.format.type, e)) device.teardown() continue if os.access(anaconda.rootPath + "/etc/fstab", os.R_OK): (product, version) = getReleaseString(anaconda.rootPath) if upgradeany or \ anaconda.instClass.productUpgradable(product, version): rootDevs.append((device, "%s %s" % (product, version))) else: log.info("product %s version %s found on %s is not upgradable" % (product, version, device.name)) # this handles unmounting the filesystem device.teardown(recursive=True) return rootDevs def mountExistingSystem(anaconda, rootEnt, allowDirty=None, warnDirty=None, readOnly=None): """ Mount filesystems specified in rootDevice's /etc/fstab file. """ rootDevice = rootEnt[0] rootPath = anaconda.rootPath fsset = anaconda.storage.fsset if readOnly: readOnly = "ro" else: readOnly = "" if rootDevice.protected and os.path.ismount("/mnt/isodir"): isys.mount("/mnt/isodir", rootPath, fstype=rootDevice.format.type, bindMount=True) else: rootDevice.setup() rootDevice.format.mount(chroot=rootPath, mountpoint="/", options=readOnly) fsset.parseFSTab() # check for dirty filesystems dirtyDevs = [] for device in fsset.devices: if not hasattr(device.format, "isDirty"): continue try: device.setup() except DeviceError as e: # we'll catch this in the main loop continue if device.format.isDirty: log.info("%s contains a dirty %s filesystem" % (device.path, device.format.type)) dirtyDevs.append(device.path) messageWindow = anaconda.intf.messageWindow if not allowDirty and dirtyDevs: 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") % "\n".join(dirtyDevs)) anaconda.storage.devicetree.teardownAll() sys.exit(0) elif warnDirty and dirtyDevs: rc = 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") % "\n".join(dirtyDevs), type = "yesno") if rc == 0: return -1 fsset.mountFilesystems(anaconda, readOnly=readOnly, skipRoot=True) class BlkidTab(object): """ Dictionary-like interface to blkid.tab with device path keys """ def __init__(self, chroot=""): self.chroot = chroot self.devices = {} def parse(self): path = "%s/etc/blkid/blkid.tab" % self.chroot log.debug("parsing %s" % path) with open(path) as f: for line in f.readlines(): # this is pretty ugly, but an XML parser is more work than # is justifiable for this purpose if not line.startswith("\n")] (data, sep, device) = line.partition(">") if not device: continue self.devices[device] = {} for pair in data.split(): try: (key, value) = pair.split("=") except ValueError: continue self.devices[device][key] = value[1:-1] # strip off quotes def __getitem__(self, key): return self.devices[key] def get(self, key, default=None): return self.devices.get(key, default) class CryptTab(object): """ Dictionary-like interface to crypttab entries with map name keys """ def __init__(self, devicetree, blkidTab=None, chroot=""): self.devicetree = devicetree self.blkidTab = blkidTab self.chroot = chroot self.mappings = {} def parse(self, chroot=""): """ Parse /etc/crypttab from an existing installation. """ if not chroot or not os.path.isdir(chroot): chroot = "" path = "%s/etc/crypttab" % chroot log.debug("parsing %s" % path) with open(path) as f: if not self.blkidTab: try: self.blkidTab = BlkidTab(chroot=chroot) self.blkidTab.parse() except Exception: self.blkidTab = None for line in f.readlines(): (line, pound, comment) = line.partition("#") fields = line.split() if not 2 <= len(fields) <= 4: continue elif len(fields) == 2: fields.extend(['none', '']) elif len(fields) == 3: fields.append('') (name, devspec, keyfile, options) = fields # resolve devspec to a device in the tree device = self.devicetree.resolveDevice(devspec, blkidTab=self.blkidTab) if device: self.mappings[name] = {"device": device, "keyfile": keyfile, "options": options} def populate(self): """ Populate the instance based on the device tree's contents. """ for device in self.devicetree.devices: # XXX should we put them all in there or just the ones that # are part of a device containing swap or a filesystem? # # Put them all in here -- we can filter from FSSet if device.format.type != "luks": continue key_file = device.format.keyFile if not key_file: key_file = "none" options = device.format.options if not options: options = "" self.mappings[device.format.mapName] = {"device": device, "keyfile": key_file, "options": options} def crypttab(self): """ Write out /etc/crypttab """ crypttab = "" for name in self.mappings: entry = self[name] crypttab += "%s UUID=%s %s %s\n" % (name, entry['device'].format.uuid, entry['keyfile'], entry['options']) return crypttab def __getitem__(self, key): return self.mappings[key] def get(self, key, default=None): return self.mappings.get(key, default) def get_containing_device(path, devicetree): """ Return the device that a path resides on. """ if not os.path.exists(path): return None st = os.stat(path) major = os.major(st.st_dev) minor = os.minor(st.st_dev) link = "/sys/dev/block/%s:%s" % (major, minor) if not os.path.exists(link): return None try: device_name = os.path.basename(os.readlink(link)) except Exception: return None if device_name.startswith("dm-"): # have I told you lately that I love you, device-mapper? device_name = name_from_dm_node(device_name) return devicetree.getDeviceByName(device_name) class FSSet(object): """ A class to represent a set of filesystems. """ def __init__(self, devicetree, rootpath): self.devicetree = devicetree self.rootpath = rootpath self.cryptTab = None self.blkidTab = None self.origFStab = None self.active = False self._dev = None self._devpts = None self._sysfs = None self._proc = None self._devshm = None self.preserveLines = [] # lines we just ignore and preserve @property def sysfs(self): if not self._sysfs: self._sysfs = NoDevice(format=getFormat("sysfs", device="sys", mountpoint="/sys")) return self._sysfs @property def dev(self): if not self._dev: self._dev = DirectoryDevice("/dev", format=getFormat("bind", device="/dev", mountpoint="/dev", exists=True), exists=True) return self._dev @property def devpts(self): if not self._devpts: self._devpts = NoDevice(format=getFormat("devpts", device="devpts", mountpoint="/dev/pts")) return self._devpts @property def proc(self): if not self._proc: self._proc = NoDevice(format=getFormat("proc", device="proc", mountpoint="/proc")) return self._proc @property def devshm(self): if not self._devshm: self._devshm = NoDevice(format=getFormat("tmpfs", device="tmpfs", mountpoint="/dev/shm")) return self._devshm @property def devices(self): return sorted(self.devicetree.devices, key=lambda d: d.path) @property def mountpoints(self): filesystems = {} for device in self.devices: if device.format.mountable and device.format.mountpoint: filesystems[device.format.mountpoint] = device return filesystems def _parseOneLine(self, (devspec, mountpoint, fstype, options, dump, passno)): # find device in the tree device = self.devicetree.resolveDevice(devspec, cryptTab=self.cryptTab, blkidTab=self.blkidTab) if device: # fall through to the bottom of this block pass elif devspec.startswith("/dev/loop"): # FIXME: create devices.LoopDevice log.warning("completely ignoring your loop mount") elif ":" in devspec and fstype.startswith("nfs"): # NFS -- preserve but otherwise ignore device = NFSDevice(devspec, format=getFormat(fstype, device=devspec)) elif devspec.startswith("/") and fstype == "swap": # swap file device = FileDevice(devspec, parents=get_containing_device(devspec, self.devicetree), format=getFormat(fstype, device=devspec, exists=True), exists=True) elif fstype == "bind" or "bind" in options: # bind mount... set fstype so later comparison won't # turn up false positives fstype = "bind" # This is probably not going to do anything useful, so we'll # make sure to try again from FSSet.mountFilesystems. The bind # mount targets should be accessible by the time we try to do # the bind mount from there. parents = get_containing_device(devspec, self.devicetree) device = DirectoryDevice(devspec, parents=parents, exists=True) device.format = getFormat("bind", device=device.path, exists=True) elif mountpoint in ("/proc", "/sys", "/dev/shm", "/dev/pts"): # drop these now -- we'll recreate later return None else: # nodev filesystem -- preserve or drop completely? format = getFormat(fstype) if devspec == "none" or \ isinstance(format, get_device_format_class("nodev")): device = NoDevice(format=format) else: device = StorageDevice(devspec, format=format) if device is None: log.error("failed to resolve %s (%s) from fstab" % (devspec, fstype)) raise UnrecognizedFSTabEntryError() if device.format.type is None: log.info("Unrecognized filesystem type for %s (%s)" % (device.name, fstype)) raise UnrecognizedFSTabEntryError() # make sure, if we're using a device from the tree, that # the device's format we found matches what's in the fstab fmt = getFormat(fstype, device=device.path) if fmt.type != device.format.type: raise StorageError("scanned format (%s) differs from fstab " "format (%s)" % (device.format.type, fstype)) if device.format.mountable: device.format.mountpoint = mountpoint device.format.mountopts = options # is this useful? try: device.format.options = options except AttributeError: pass return device def parseFSTab(self, chroot=None): """ parse /etc/fstab preconditions: all storage devices have been scanned, including filesystems postconditions: FIXME: control which exceptions we raise XXX do we care about bind mounts? how about nodev mounts? loop mounts? """ if not chroot or not os.path.isdir(chroot): chroot = self.rootpath path = "%s/etc/fstab" % chroot if not os.access(path, os.R_OK): # XXX should we raise an exception instead? log.info("cannot open %s for read" % path) return blkidTab = BlkidTab(chroot=chroot) try: blkidTab.parse() log.debug("blkid.tab devs: %s" % blkidTab.devices.keys()) except Exception as e: log.info("error parsing blkid.tab: %s" % e) blkidTab = None cryptTab = CryptTab(self.devicetree, blkidTab=blkidTab, chroot=chroot) try: cryptTab.parse(chroot=chroot) log.debug("crypttab maps: %s" % cryptTab.mappings.keys()) except Exception as e: log.info("error parsing crypttab: %s" % e) cryptTab = None self.blkidTab = blkidTab self.cryptTab = cryptTab with open(path) as f: log.debug("parsing %s" % path) lines = f.readlines() # save the original file self.origFStab = ''.join(lines) for line in lines: # strip off comments (line, pound, comment) = line.partition("#") fields = line.split() if not 4 <= len(fields) <= 6: continue elif len(fields) == 4: fields.extend([0, 0]) elif len(fields) == 5: fields.append(0) (devspec, mountpoint, fstype, options, dump, passno) = fields try: device = self._parseOneLine((devspec, mountpoint, fstype, options, dump, passno)) except UnrecognizedFSTabEntryError: # just write the line back out as-is after upgrade self.preserveLines.append(line) continue except Exception as e: raise Exception("fstab entry %s is malformed: %s" % (devspec, e)) if not device: continue if device not in self.devicetree.devices: try: self.devicetree._addDevice(device) except ValueError: # just write duplicates back out post-install self.preserveLines.append(line) def fsFreeSpace(self, chroot=None): if not chroot: chroot = self.rootpath space = [] for device in self.devices: if not device.format.mountable or \ not device.format.mountpoint or \ not device.format.status: continue path = "%s/%s" % (chroot, device.format.mountpoint) ST_RDONLY = 1 # this should be in python's posix module if os.statvfs(path)[statvfs.F_FLAG] & ST_RDONLY: continue try: space.append((device.format.mountpoint, isys.pathSpaceAvailable(path))) except SystemError: log.error("failed to calculate free space for %s" % (device.format.mountpoint,)) space.sort(key=lambda s: s[1]) return space def mtab(self): format = "%s %s %s %s 0 0\n" mtab = "" devices = self.mountpoints.values() + self.swapDevices devices.extend([self.devshm, self.devpts, self.sysfs, self.proc]) devices.sort(key=lambda d: getattr(d.format, "mountpoint", None)) for device in devices: if not device.format.status: continue if not device.format.mountable: continue if device.format.mountpoint: options = device.format.mountopts if options: options = options.replace("defaults,", "") options = options.replace("defaults", "") if options: options = "rw," + options else: options = "rw" mtab = mtab + format % (device.path, device.format.mountpoint, device.format.type, options) return mtab def turnOnSwap(self, anaconda, upgrading=None): def swapErrorDialog(msg, device): if not anaconda.intf: sys.exit(0) buttons = [_("Skip"), _("Format"), _("_Exit")] ret = anaconda.intf.messageWindow(_("Error"), msg, type="custom", custom_buttons=buttons, custom_icon="warning") if ret == 0: self.devicetree._removeDevice(device) return False elif ret == 1: device.format.create(force=True) return True else: sys.exit(0) for device in self.swapDevices: if isinstance(device, FileDevice): # set up FileDevices' parents now that they are accessible targetDir = "%s/%s" % (anaconda.rootPath, device.path) parent = get_containing_device(targetDir, self.devicetree) if not parent: log.error("cannot determine which device contains " "directory %s" % device.path) device.parents = [] self.devicetree._removeDevice(device) continue else: device.parents = [parent] while True: try: device.setup() device.format.setup() except OldSwapError: msg = _("The swap device:\n\n %s\n\n" "is an old-style Linux swap partition. If " "you want to use this device for swap space, " "you must reformat as a new-style Linux swap " "partition.") \ % device.path if swapErrorDialog(msg, device): continue except SuspendError: if upgrading: msg = _("The swap device:\n\n %s\n\n" "in your /etc/fstab file is currently in " "use as a software suspend device, " "which means your system is hibernating. " "To perform an upgrade, please shut down " "your system rather than hibernating it.") \ % device.path else: msg = _("The swap device:\n\n %s\n\n" "in your /etc/fstab file is currently in " "use as a software suspend device, " "which means your system is hibernating. " "If you are performing a new install, " "make sure the installer is set " "to format all swap devices.") \ % device.path if swapErrorDialog(msg, device): continue except UnknownSwapError: msg = _("The swap device:\n\n %s\n\n" "does not contain a supported swap volume. In " "order to continue installation, you will need " "to format the device or skip it.") \ % device.path if swapErrorDialog(msg, device): continue except DeviceError as (msg, name): if anaconda.intf: if upgrading: err = _("Error enabling swap device %(name)s: " "%(msg)s\n\n" "The /etc/fstab on your upgrade partition " "does not reference a valid swap " "device.\n\nPress OK to exit the " "installer") % {'name': name, 'msg': msg} else: err = _("Error enabling swap device %(name)s: " "%(msg)s\n\n" "This most likely means this swap " "device has not been initialized.\n\n" "Press OK to exit the installer.") % \ {'name': name, 'msg': msg} anaconda.intf.messageWindow(_("Error"), err) sys.exit(0) break def mountFilesystems(self, anaconda, raiseErrors=None, readOnly=None, skipRoot=False): intf = anaconda.intf devices = self.mountpoints.values() + self.swapDevices devices.extend([self.dev, self.devshm, self.devpts, self.sysfs, self.proc]) devices.sort(key=lambda d: getattr(d.format, "mountpoint", None)) for device in devices: if not device.format.mountable or not device.format.mountpoint: continue if skipRoot and device.format.mountpoint == "/": continue options = device.format.options if "noauto" in options.split(","): continue if device.format.type == "bind" and device != self.dev: # set up the DirectoryDevice's parents now that they are # accessible # # -- bind formats' device and mountpoint are always both # under the chroot. no exceptions. none, damn it. targetDir = "%s/%s" % (anaconda.rootPath, device.path) parent = get_containing_device(targetDir, self.devicetree) if not parent: log.error("cannot determine which device contains " "directory %s" % device.path) device.parents = [] self.devicetree._removeDevice(device) continue else: device.parents = [parent] try: device.setup() except Exception as msg: # FIXME: need an error popup continue if readOnly: options = "%s,%s" % (options, readOnly) try: device.format.setup(options=options, chroot=anaconda.rootPath) except OSError as e: log.error("OSError: (%d) %s" % (e.errno, e.strerror)) if intf: if e.errno == errno.EEXIST: intf.messageWindow(_("Invalid mount point"), _("An error occurred when trying " "to create %s. Some element of " "this path is not a directory. " "This is a fatal error and the " "install cannot continue.\n\n" "Press to exit the " "installer.") % (device.format.mountpoint,)) else: na = {'mountpoint': device.format.mountpoint, 'msg': e.strerror} intf.messageWindow(_("Invalid mount point"), _("An error occurred when trying " "to create %(mountpoint)s: " "%(msg)s. This is " "a fatal error and the install " "cannot continue.\n\n" "Press to exit the " "installer.") % na) sys.exit(0) except SystemError as (num, msg): log.error("SystemError: (%d) %s" % (num, msg) ) if raiseErrors: raise if intf and not device.format.linuxNative: na = {'path': device.path, 'mountpoint': device.format.mountpoint} ret = intf.messageWindow(_("Unable to mount filesystem"), _("An error occurred mounting " "device %(path)s as " "%(mountpoint)s. You may " "continue installation, but " "there may be problems.") % na, type="custom", custom_icon="warning", custom_buttons=[_("_Exit installer"), _("_Continue")]) if ret == 0: sys.exit(0) else: continue sys.exit(0) except FSError as msg: log.error("FSError: %s" % msg) if intf: na = {'path': device.path, 'mountpoint': device.format.mountpoint, 'msg': msg} intf.messageWindow(_("Unable to mount filesystem"), _("An error occurred mounting " "device %(path)s as %(mountpoint)s: " "%(msg)s. This is " "a fatal error and the install " "cannot continue.\n\n" "Press to exit the " "installer.") % na) sys.exit(0) self.active = True def umountFilesystems(self, ignoreErrors=True, swapoff=True): devices = self.mountpoints.values() + self.swapDevices devices.extend([self.dev, self.devshm, self.devpts, self.sysfs, self.proc]) devices.sort(key=lambda d: getattr(d.format, "mountpoint", None)) devices.reverse() for device in devices: if not device.format.mountable and \ (device.format.type != "swap" or swapoff): continue device.format.teardown() device.teardown() self.active = False def createSwapFile(self, device, size, rootPath=None): """ Create and activate a swap file under rootPath. """ if not rootPath: rootPath = self.rootpath filename = "/SWAP" count = 0 basedir = os.path.normpath("%s/%s" % (rootPath, device.format.mountpoint)) while os.path.exists("%s/%s" % (basedir, filename)) or \ self.devicetree.getDeviceByName(filename): file = os.path.normpath("%s/%s" % (basedir, filename)) count += 1 filename = "/SWAP-%d" % count dev = FileDevice(filename, size=size, parents=[device], format=getFormat("swap", device=filename)) dev.create() dev.setup() dev.format.create() dev.format.setup() # nasty, nasty self.devicetree._addDevice(dev) def mkDevRoot(self, instPath=None): if not instPath: instPath = self.rootpath root = self.rootDevice if root is None: # cannot create root device ! return dev = "%s/%s" % (instPath, root.path) if not os.path.exists("%s/dev/root" %(instPath,)) and os.path.exists(dev): rdev = os.stat(dev).st_rdev os.mknod("%s/dev/root" % (instPath,), stat.S_IFBLK | 0600, rdev) @property def swapDevices(self): swaps = [] for device in self.devices: if device.format.type == "swap": swaps.append(device) return swaps @property def rootDevice(self): for path in ["/", self.rootpath]: for device in self.devices: try: mountpoint = device.format.mountpoint except AttributeError: mountpoint = None if mountpoint == path: return device @property def migratableDevices(self): """ List of devices whose filesystems can be migrated. """ migratable = [] for device in self.devices: if device.format.migratable and device.format.exists: migratable.append(device) return migratable def write(self, instPath=None): """ write out all config files based on the set of filesystems """ if not instPath: instPath = self.rootpath # /etc/fstab fstab_path = os.path.normpath("%s/etc/fstab" % instPath) fstab = self.fstab() open(fstab_path, "w").write(fstab) # /etc/crypttab crypttab_path = os.path.normpath("%s/etc/crypttab" % instPath) crypttab = self.crypttab() open(crypttab_path, "w").write(crypttab) # /etc/mdadm.conf mdadm_path = os.path.normpath("%s/etc/mdadm.conf" % instPath) mdadm_conf = self.mdadmConf() if mdadm_conf: with open(mdadm_path, "w") as md_f: md_f.write(mdadm_conf) # /etc/multipath.conf multipath_path = os.path.normpath("%s/etc/multipath.conf" % instPath) multipath_conf = self.multipathConf() if multipath_conf: with open(multipath_path, "w") as mp_f: mp_f.write(multipath_conf) def crypttab(self): # if we are upgrading, do we want to update crypttab? # gut reaction says no, but plymouth needs the names to be very # specific for passphrase prompting if not self.cryptTab: self.cryptTab = CryptTab(self.devicetree) self.cryptTab.populate() devices = self.mountpoints.values() + self.swapDevices # prune crypttab -- only mappings required by one or more entries for name in self.cryptTab.mappings.keys(): keep = False mapInfo = self.cryptTab[name] cryptoDev = mapInfo['device'] for device in devices: if device == cryptoDev or device.dependsOn(cryptoDev): keep = True break if not keep: del self.cryptTab.mappings[name] return self.cryptTab.crypttab() def mdadmConf(self): """ Return the contents of mdadm.conf. """ arrays = self.devicetree.getDevicesByType("mdarray") arrays.extend(self.devicetree.getDevicesByType("mdbiosraidarray")) arrays.extend(self.devicetree.getDevicesByType("mdcontainer")) # Sort it, this not only looks nicer, but this will also put # containers (which get md0, md1, etc.) before their members # (which get md127, md126, etc.). and lame as it is mdadm will not # assemble the whole stack in one go unless listed in the proper order # in mdadm.conf arrays.sort(key=lambda d: d.path) conf = "# mdadm.conf written out by anaconda\n" conf += "MAILADDR root\n" conf += "AUTO +imsm +1.x -all\n" devices = self.mountpoints.values() + self.swapDevices for array in arrays: for device in devices: if device == array or device.dependsOn(array): conf += array.mdadmConfEntry break return conf def multipathConf(self): """ Return the contents of multipath.conf. """ mpaths = self.devicetree.getDevicesByType("dm-multipath") if not mpaths: return None mpaths.sort(key=lambda d: d.name) config = MultipathConfigWriter() whitelist = [] for mpath in mpaths: config.addMultipathDevice(mpath) whitelist.append(mpath.name) whitelist.extend([d.name for d in mpath.parents]) # blacklist everything we're not using and let the # sysadmin sort it out. for d in self.devicetree.devices: if not d.name in whitelist: config.addBlacklistDevice(d) return config.write() def fstab (self): format = "%-23s %-23s %-7s %-15s %d %d\n" fstab = """ # # /etc/fstab # Created by anaconda on %s # # Accessible filesystems, by reference, are maintained under '/dev/disk' # See man pages fstab(5), findfs(8), mount(8) and/or blkid(8) for more info # """ % time.asctime() devices = sorted(self.mountpoints.values(), key=lambda d: d.format.mountpoint) devices += self.swapDevices devices.extend([self.devshm, self.devpts, self.sysfs, self.proc]) netdevs = self.devicetree.getDevicesByInstance(NetworkStorageDevice) for device in devices: # why the hell do we put swap in the fstab, anyway? if not device.format.mountable and device.format.type != "swap": continue # Don't write out lines for optical devices, either. if isinstance(device, OpticalDevice): continue fstype = getattr(device.format, "mountType", device.format.type) if fstype == "swap": mountpoint = "swap" options = device.format.options else: mountpoint = device.format.mountpoint options = device.format.options if not mountpoint: log.warning("%s filesystem on %s has no mountpoint" % \ (fstype, device.path)) continue options = options or "defaults" for netdev in netdevs: if device.dependsOn(netdev): options = options + ",_netdev" break devspec = device.fstabSpec dump = device.format.dump if device.format.check and mountpoint == "/": passno = 1 elif device.format.check: passno = 2 else: passno = 0 fstab = fstab + device.fstabComment fstab = fstab + format % (devspec, mountpoint, fstype, options, dump, passno) # now, write out any lines we were unable to process because of # unrecognized filesystems or unresolveable device specifications for line in self.preserveLines: fstab += line return fstab