# # fstab.py: filesystem management # # Matt Wilson # # Copyright 2001-2002 Red Hat, Inc. # # This software may be freely redistributed under the terms of the GNU # library public license. # # You should have received a copy of the GNU Library Public License # along with this program; if not, write to the Free Software # Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. # import string import isys import iutil import os import posix import errno import parted import sys import struct import partitioning import partedUtils import raid import lvm import types from rhpl.log import log from rhpl.translate import _, N_ class BadBlocksError(Exception): pass defaultMountPoints = ['/', '/home', '/tmp', '/usr', '/var', '/usr/local', '/opt'] if iutil.getArch() == "s390": # Many s390 have 2G DASDs, we recomment putting /usr/share on its own DASD defaultMountPoints.insert(4, '/usr/share') if iutil.getArch() == "ia64": defaultMountPoints.insert(1, '/boot/efi') else: defaultMountPoints.insert(1, '/boot') fileSystemTypes = {} # XXX define availraidlevels and defaultmntpts as arch characteristics availRaidLevels = raid.getRaidLevels() def fileSystemTypeGetDefault(): if fileSystemTypeGet('ext3').isSupported(): return fileSystemTypeGet('ext3') elif fileSystemTypeGet('ext2').isSupported(): return fileSystemTypeGet('ext2') else: raise ValueError, "You have neither ext3 or ext2 support in your kernel!" def fileSystemTypeGet(key): return fileSystemTypes[key] def fileSystemTypeRegister(klass): fileSystemTypes[klass.getName()] = klass def fileSystemTypeGetTypes(): return fileSystemTypes.copy() def getUsableLinuxFs(): rc = [] for fsType in fileSystemTypes.keys(): if fileSystemTypes[fsType].isMountable() and \ fileSystemTypes[fsType].isLinuxNativeFS(): rc.append(fsType) # make sure the default is first in the list, kind of ugly default = fileSystemTypeGetDefault() defaultName = default.getName() if defaultName in rc: del rc[rc.index(defaultName)] rc.insert(0, defaultName) return rc def mountCompare(a, b): one = a.mountpoint two = b.mountpoint if one < two: return -1 elif two > one: return 1 return 0 def devify(device): if device != "none" and device[0] != '/': return "/dev/" + device return device class LabelFactory: def __init__(self): self.labels = None def createLabel(self, mountpoint, maxLabelChars): if self.labels == None: self.labels = {} diskset = partedUtils.DiskSet() diskset.openDevices() diskset.stopAllRaid() diskset.startAllRaid() labels = diskset.getLabels() del diskset self.reserveLabels(labels) if len(mountpoint) > maxLabelChars: mountpoint = mountpoint[0:maxLabelChars] count = 0 while self.labels.has_key(mountpoint): count = count + 1 s = "%s" % count if (len(mountpoint) + len(s)) <= maxLabelChars: mountpoint = mountpoint + s else: strip = len(mountpoint) + len(s) - maxLabelChars mountpoint = mountpoint[0:len(mountpoint) - strip] + s self.labels[mountpoint] = 1 return mountpoint def reserveLabels(self, labels): if self.labels == None: self.labels = {} for device, label in labels.items(): self.labels[label] = 1 labelFactory = LabelFactory() class FileSystemType: kernelFilesystems = {} def __init__(self): self.deviceArguments = {} self.formattable = 0 self.checkable = 0 self.checked = 0 self.name = "" self.linuxnativefs = 0 self.partedFileSystemType = None self.partedPartitionFlags = [] self.maxSizeMB = 8 * 1024 * 1024 self.supported = -1 self.defaultOptions = "defaults" self.migratetofs = None self.extraFormatArgs = [] self.maxLabelChars = 16 self.packages = [] def mount(self, device, mountpoint, readOnly=0, bindMount=0): if not self.isMountable(): return iutil.mkdirChain(mountpoint) isys.mount(device, mountpoint, fstype = self.getName(), readOnly = readOnly, bindMount = bindMount) def umount(self, device, path): isys.umount(path, removeDir = 0) def getName(self): return self.name def getNeededPackages(self): return self.packages def registerDeviceArgumentFunction(self, klass, function): self.deviceArguments[klass] = function def badblocksDevice(self, entry, windowCreator, chroot='/'): if windowCreator: w = windowCreator(_("Checking for Bad Blocks"), _("Checking for bad blocks on /dev/%s...") % (entry.device.getDevice(),), 100) else: w = None devicePath = entry.device.setupDevice(chroot) args = [ "/usr/sbin/badblocks", "-vv", devicePath ] # entirely too much cutting and pasting from ext2FormatFileSystem fd = os.open("/dev/tty5", os.O_RDWR | os.O_CREAT | os.O_APPEND) p = os.pipe() childpid = os.fork() if not childpid: os.close(p[0]) os.dup2(p[1], 1) os.dup2(p[1], 2) os.close(p[1]) os.close(fd) os.execv(args[0], args) log("failed to exec %s", args) os._exit(1) os.close(p[1]) s = 'a' while s and s != ':': try: s = os.read(p[0], 1) except OSError, args: (num, str) = args if (num != 4): raise IOError, args os.write(fd, s) num = '' numbad = 0 while s: try: s = os.read(p[0], 1) os.write(fd, s) if s not in ['\b', '\n']: try: num = num + s except: pass else: if s == '\b': if num: l = string.split(num, '/') val = (long(l[0]) * 100) / long(l[1]) w and w.set(val) else: try: blocknum = long(num) numbad = numbad + 1 except: pass if numbad > 0: raise BadBlocksError num = '' except OSError, args: (num, str) = args if (num != 4): raise IOError, args try: (pid, status) = os.waitpid(childpid, 0) except OSError, (num, msg): log("exception from waitpid in badblocks: %s %s" % (num, msg)) status = None os.close(fd) w and w.pop() if numbad > 0: raise BadBlocksError # have no clue how this would happen, but hope we're okay if status is None: return if os.WIFEXITED(status) and (os.WEXITSTATUS(status) == 0): return raise SystemError def formatDevice(self, entry, progress, chroot='/'): if self.isFormattable(): raise RuntimeError, "formatDevice method not defined" def checkDevice(self, entry, progress, chroot='/'): if self.isCheckable(): raise RuntimeError, "checkDevice method not defined" def migrateFileSystem(self, device, message, chroot='/'): if self.isMigratable(): raise RuntimeError, "migrateFileSystem method not defined" def labelDevice(self, entry, chroot): pass def isFormattable(self): return self.formattable def isCheckable(self): return self.checkable def isLinuxNativeFS(self): return self.linuxnativefs def readProcFilesystems(self): f = open("/proc/filesystems", 'r') if not f: pass lines = f.readlines() for line in lines: fields = string.split(line) if fields[0] == "nodev": fsystem = fields[1] else: fsystem = fields[0] FileSystemType.kernelFilesystems[fsystem] = None def isMountable(self): if not FileSystemType.kernelFilesystems: self.readProcFilesystems() return FileSystemType.kernelFilesystems.has_key(self.getName()) def isSupported(self): if self.supported == -1: return self.isMountable() return self.supported def isChecked(self): return self.checked def getDeviceArgs(self, device): deviceArgsFunction = self.deviceArguments.get(device.__class__) if not deviceArgsFunction: return [] return deviceArgsFunction(device) def getPartedFileSystemType(self): return self.partedFileSystemType def getPartedPartitionFlags(self): return self.partedPartitionFlags # note that this returns the maximum size of a filesystem in megabytes def getMaxSizeMB(self): return self.maxSizeMB def getDefaultOptions(self, mountpoint): return self.defaultOptions def getMigratableFSTargets(self): retval = [] if not self.migratetofs: return retval for fs in self.migratetofs: if fileSystemTypeGet(fs).isSupported(): retval.append(fs) return retval def isMigratable(self): if len(self.getMigratableFSTargets()) > 0: return 1 else: return 0 class reiserfsFileSystem(FileSystemType): def __init__(self): FileSystemType.__init__(self) self.partedFileSystemType = parted.file_system_type_get("reiserfs") self.formattable = 1 self.checked = 1 self.linuxnativefs = 1 # this is totally, 100% unsupported. Boot with "linux reiserfs" # at the boot: prompt will let you make new reiserfs filesystems # in the installer. Bugs filed when you use this will be closed # WONTFIX. try: f = open("/proc/cmdline") line = f.readline() if string.find(line, " reiserfs") != -1: self.supported = -1 else: self.supported = 0 del f except: self.supported = 0 self.name = "reiserfs" self.packages = [ "reiserfs-utils" ] self.maxSizeMB = 8 * 1024 * 1024 def formatDevice(self, entry, progress, chroot='/'): devicePath = entry.device.setupDevice(chroot) p = os.pipe() os.write(p[1], "y\n") os.close(p[1]) rc = iutil.execWithRedirect("/usr/sbin/mkreiserfs", ["mkreiserfs", devicePath ], stdin = p[0], stdout = "/dev/tty5", stderr = "/dev/tty5") if rc: raise SystemError fileSystemTypeRegister(reiserfsFileSystem()) class xfsFileSystem(FileSystemType): def __init__(self): FileSystemType.__init__(self) self.partedFileSystemType = parted.file_system_type_get("xfs") self.formattable = 1 self.checked = 1 self.linuxnativefs = 1 self.name = "xfs" self.maxSizeMB = 16 * 1024 * 1024 self.maxLabelChars = 12 # this is totally, 100% unsupported. Boot with "linux xfs" # at the boot: prompt will let you make new xfs filesystems # in the installer. Bugs filed when you use this will be closed # WONTFIX. try: f = open("/proc/cmdline") line = f.readline() if string.find(line, " xfs") != -1: self.supported = -1 else: self.supported = 0 del f except: self.supported = 0 self.packages = [ "xfsprogs" ] def formatDevice(self, entry, progress, chroot='/'): devicePath = entry.device.setupDevice(chroot) rc = iutil.execWithRedirect("/usr/sbin/mkfs.xfs", ["mkfs.xfs", "-f", "-l", "internal", devicePath ], stdout = "/dev/tty5", stderr = "/dev/tty5") if rc: raise SystemError def labelDevice(self, entry, chroot): devicePath = entry.device.setupDevice(chroot) label = labelFactory.createLabel(entry.mountpoint, self.maxLabelChars) db_cmd = "label " + label rc = iutil.execWithRedirect("/usr/sbin/xfs_db", ["xfs_db", "-x", "-c", db_cmd, devicePath], stdout = "/dev/tty5", stderr = "/dev/tty5") if rc: raise SystemError entry.setLabel(label) fileSystemTypeRegister(xfsFileSystem()) class jfsFileSystem(FileSystemType): def __init__(self): FileSystemType.__init__(self) self.partedFileSystemType = parted.file_system_type_get("jfs") self.formattable = 1 self.checked = 1 self.linuxnativefs = 1 self.maxLabelChars = 16 # this is totally, 100% unsupported. Boot with "linux jfs" # at the boot: prompt will let you make new reiserfs filesystems # in the installer. Bugs filed when you use this will be closed # WONTFIX. try: f = open("/proc/cmdline") line = f.readline() if string.find(line, " jfs") != -1: self.supported = -1 else: self.supported = 0 del f except: self.supported = 0 if not os.access("/usr/sbin/mkfs.jfs", os.X_OK): self.supported = 0 self.name = "jfs" self.packages = [ "jfsutils" ] self.maxSizeMB = 8 * 1024 * 1024 def labelDevice(self, entry, chroot): devicePath = entry.device.setupDevice(chroot) label = labelFactory.createLabel(entry.mountpoint, self.maxLabelChars) rc = iutil.execWithRedirect("/usr/sbin/jfs_tune", ["jfs_tune", "-L", label, devicePath], stdout = "/dev/tty5", stderr = "/dev/tty5") if rc: raise SystemError entry.setLabel(label) def formatDevice(self, entry, progress, chroot='/'): devicePath = entry.device.setupDevice(chroot) rc = iutil.execWithRedirect("/usr/sbin/mkfs.jfs", ["mkfs.jfs", "-q", devicePath ], stdout = "/dev/tty5", stderr = "/dev/tty5") if rc: raise SystemError fileSystemTypeRegister(jfsFileSystem()) class extFileSystem(FileSystemType): def __init__(self): FileSystemType.__init__(self) self.partedFileSystemType = None self.formattable = 1 self.checkable = 1 self.checked = 1 self.linuxnativefs = 1 self.maxSizeMB = 8 * 1024 * 1024 self.packages = [ "e2fsprogs" ] def labelDevice(self, entry, chroot): devicePath = entry.device.setupDevice(chroot) label = labelFactory.createLabel(entry.mountpoint, self.maxLabelChars) rc = iutil.execWithRedirect("/usr/sbin/e2label", ["e2label", devicePath, label], stdout = "/dev/tty5", stderr = "/dev/tty5") if rc: raise SystemError entry.setLabel(label) def formatDevice(self, entry, progress, chroot='/'): devicePath = entry.device.setupDevice(chroot) devArgs = self.getDeviceArgs(entry.device) args = [ "/usr/sbin/mke2fs", devicePath] args.extend(devArgs) args.extend(self.extraFormatArgs) rc = ext2FormatFilesystem(args, "/dev/tty5", progress, entry.mountpoint) if rc: raise SystemError def checkDevice(self, entry, progress, chroot='/'): devicePath = entry.device.setupDevice(chroot) args = [ "/usr/sbin/e2fsck", "-p", "-f", "-C0", devicePath] rc = fsckFilesystem(args, "/dev/tty5", progress, entry.mountpoint) if rc: raise SystemError # this is only for ext3 filesystems, but migration is a method # of the ext2 fstype, so it needs to be here. FIXME should be moved def setExt3Options(self, entry, message, chroot='/'): devicePath = entry.device.setupDevice(chroot) # if no journal, don't turn off the fsck if not isys.ext2HasJournal(devicePath, makeDevNode = 0): return rc = iutil.execWithRedirect("/usr/sbin/tune2fs", ["tunefs", "-c0", "-i0", "-Odir_index", devicePath], stdout = "/dev/tty5", stderr = "/dev/tty5") class ext2FileSystem(extFileSystem): def __init__(self): extFileSystem.__init__(self) self.name = "ext2" self.partedFileSystemType = parted.file_system_type_get("ext2") self.migratetofs = ['ext3'] def migrateFileSystem(self, entry, message, chroot='/'): devicePath = entry.device.setupDevice(chroot) if not entry.fsystem or not entry.origfsystem: raise RuntimeError, ("Trying to migrate fs w/o fsystem or " "origfsystem set") if entry.fsystem.getName() != "ext3": raise RuntimeError, ("Trying to migrate ext2 to something other " "than ext3") # if journal already exists skip if isys.ext2HasJournal(devicePath, makeDevNode = 0): log("Skipping migration of %s, has a journal already.\n" % devicePath) return rc = iutil.execWithRedirect("/usr/sbin/tune2fs", ["tune2fs", "-j", devicePath ], stdout = "/dev/tty5", stderr = "/dev/tty5") if rc: raise SystemError # XXX this should never happen, but appears to have done # so several times based on reports in bugzilla. # At least we can avoid leaving them with a system which won't boot if not isys.ext2HasJournal(devicePath, makeDevNode = 0): log("Migration of %s attempted but no journal exists after " "running tune2fs.\n" % (devicePath)) if message: rc = message(_("Error"), _("An error occurred migrating %s to ext3. It is " "possible to continue without migrating this " "file system if desired.\n\n" "Would you like to continue without migrating %s?") % (devicePath, devicePath), type = "yesno") if rc == 0: sys.exit(0) entry.fsystem = entry.origfsystem else: extFileSystem.setExt3Options(self, entry, message, chroot) fileSystemTypeRegister(ext2FileSystem()) class ext3FileSystem(extFileSystem): def __init__(self): extFileSystem.__init__(self) self.name = "ext3" self.extraFormatArgs = [ "-j" ] self.partedFileSystemType = parted.file_system_type_get("ext3") def formatDevice(self, entry, progress, chroot='/'): extFileSystem.formatDevice(self, entry, progress, chroot) extFileSystem.setExt3Options(self, entry, progress, chroot) fileSystemTypeRegister(ext3FileSystem()) class raidMemberDummyFileSystem(FileSystemType): def __init__(self): FileSystemType.__init__(self) self.partedFileSystemType = parted.file_system_type_get("ext2") self.partedPartitionFlags = [ parted.PARTITION_RAID ] self.formattable = 1 self.checked = 0 self.linuxnativefs = 1 self.name = "software RAID" self.maxSizeMB = 8 * 1024 * 1024 self.supported = 1 if len(availRaidLevels) == 0: self.supported = 0 self.packages = [ "mdadm" ] def formatDevice(self, entry, progress, chroot='/'): # mkraid did all we need to format this partition... pass fileSystemTypeRegister(raidMemberDummyFileSystem()) class lvmPhysicalVolumeDummyFileSystem(FileSystemType): def __init__(self): FileSystemType.__init__(self) self.partedFileSystemType = parted.file_system_type_get("ext2") self.partedPartitionFlags = [ parted.PARTITION_LVM ] self.formattable = 1 self.checked = 0 self.linuxnativefs = 1 self.name = "physical volume (LVM)" self.maxSizeMB = 8 * 1024 * 1024 self.supported = 1 self.packages = [ "lvm2" ] def isMountable(self): return 0 def formatDevice(self, entry, progress, chroot='/'): # already done by the pvcreate during volume creation pass fileSystemTypeRegister(lvmPhysicalVolumeDummyFileSystem()) class lvmVolumeGroupDummyFileSystem(FileSystemType): def __init__(self): FileSystemType.__init__(self) self.partedFileSystemType = parted.file_system_type_get("ext2") self.formattable = 1 self.checked = 0 self.linuxnativefs = 0 self.name = "volume group (LVM)" self.supported = 0 self.maxSizeMB = 8 * 1024 * 1024 self.packages = [ "lvm2" ] def isMountable(self): return 0 def formatDevice(self, entry, progress, chroot='/'): # the vgcreate already did this pass fileSystemTypeRegister(lvmVolumeGroupDummyFileSystem()) class swapFileSystem(FileSystemType): enabledSwaps = {} def __init__(self): FileSystemType.__init__(self) self.partedFileSystemType = parted.file_system_type_get("linux-swap") self.formattable = 1 self.name = "swap" self.maxSizeMB = 8 * 1024 * 1024 self.linuxnativefs = 1 self.supported = 1 def mount(self, device, mountpoint, readOnly=0, bindMount=0): pagesize = isys.getpagesize() buf = None if pagesize > 2048: num = pagesize else: num = 2048 try: fd = os.open(dev, os.O_RDONLY) buf = os.read(fd, num) os.close(fd) except: pass # FIXME: we should ask if they want to reinitialize swaps that # are of format 0 (#122101) if buf is not None and len(buf) == pagesize: if buf[pagesize - 10:] == "SWAP-SPACE": log("SWAP is of format 0, skipping it") return isys.swapon (device) def umount(self, device, path): # unfortunately, turning off swap is bad. raise RuntimeError, "unable to turn off swap" def formatDevice(self, entry, progress, chroot='/'): file = entry.device.setupDevice(chroot) rc = iutil.execWithRedirect ("/usr/sbin/mkswap", [ "mkswap", '-v1', file ], stdout = "/dev/tty5", stderr = "/dev/tty5", searchPath = 1) if rc: raise SystemError def labelDevice(self, entry, chroot): file = entry.device.setupDevice(chroot) label = labelFactory.createLabel("SWAP-%s" %entry.device.getDevice(), self.maxLabelChars) rc = iutil.execWithRedirect ("/usr/sbin/mkswap", [ "mkswap", '-v1', "-L", label, file ], stdout = "/dev/tty5", stderr = "/dev/tty5", searchPath = 1) if rc: raise SystemError entry.setLabel(label) fileSystemTypeRegister(swapFileSystem()) class FATFileSystem(FileSystemType): def __init__(self): FileSystemType.__init__(self) self.partedFileSystemType = parted.file_system_type_get("fat32") self.formattable = 1 self.checked = 0 self.maxSizeMB = 1024 * 1024 self.name = "vfat" self.packages = [ "dosfstools" ] def formatDevice(self, entry, progress, chroot='/'): devicePath = entry.device.setupDevice(chroot) devArgs = self.getDeviceArgs(entry.device) args = [ "mkdosfs", devicePath ] args.extend(devArgs) rc = iutil.execWithRedirect("/usr/sbin/mkdosfs", args, stdout = "/dev/tty5", stderr = "/dev/tty5") if rc: raise SystemError fileSystemTypeRegister(FATFileSystem()) class NTFSFileSystem(FileSystemType): def __init__(self): FileSystemType.__init__(self) self.partedFileSystemType = parted.file_system_type_get("ntfs") self.formattable = 0 self.checked = 0 self.name = "ntfs" fileSystemTypeRegister(NTFSFileSystem()) class hfsFileSystem(FileSystemType): def __init__(self): FileSystemType.__init__(self) self.partedFileSystemType = parted.file_system_type_get("hfs") self.formattable = 1 self.checked = 0 self.name = "hfs" self.supported = 0 def isMountable(self): return 0 def formatDevice(self, entry, progress, chroot='/'): devicePath = entry.device.setupDevice(chroot) devArgs = self.getDeviceArgs(entry.device) args = [ "hformat", devicePath ] args.extend(devArgs) rc = iutil.execWithRedirect("/usr/bin/hformat", args, stdout = "/dev/tty5", stderr = "/dev/tty5") if rc: raise SystemError fileSystemTypeRegister(hfsFileSystem()) class applebootstrapFileSystem(hfsFileSystem): def __init__(self): hfsFileSystem.__init__(self) self.partedPartitionFlags = [ parted.PARTITION_BOOT ] self.maxSizeMB = 1 self.name = "Apple Bootstrap" if iutil.getPPCMacGen() == "NewWorld": self.supported = 1 else: self.supported = 0 fileSystemTypeRegister(applebootstrapFileSystem()) class prepbootFileSystem(FileSystemType): def __init__(self): FileSystemType.__init__(self) self.partedFileSystemType = None self.checked = 0 self.name = "PPC PReP Boot" self.maxSizeMB = 10 if iutil.getPPCMachine() == "iSeries": self.maxSizeMB = 64 # supported for use on the pseries if (iutil.getPPCMachine() == "pSeries" or iutil.getPPCMachine() == "iSeries"): self.supported = 1 self.formattable = 1 else: self.supported = 0 self.formattable = 0 def formatDevice(self, entry, progress, chroot='/'): # copy and paste job from booty/bootloaderInfo.py... def getDiskPart(dev): cut = len(dev) if (dev.startswith('rd/') or dev.startswith('ida/') or dev.startswith('cciss/') or dev.startswith('i2o/') or dev.startswith("sx8/")): if dev[-2] == 'p': cut = -1 elif dev[-3] == 'p': cut = -2 else: if dev[-2] in string.digits: cut = -2 elif dev[-1] in string.digits: cut = -1 name = dev[:cut] # hack off the trailing 'p' from /dev/cciss/*, for example if name[-1] == 'p': for letter in name: if letter not in string.letters and letter != "/": name = name[:-1] break if cut < 0: partNum = int(dev[cut:]) else: partNum = None return (name, partNum) # FIXME: oh dear is this a hack beyond my wildest imagination. # parted doesn't really know how to do these, so we're going to # exec sfdisk and make it set the partition type. this is bloody # ugly devicePath = entry.device.setupDevice(chroot) (disk, part) = getDiskPart(devicePath) if disk is None or part is None: log("oops, somehow got a bogus device for the PReP partition " "(%s)" %(devicePath,)) return args = [ "sfdisk", "--change-id", disk, "%d" %(part,), "41" ] if disk.startswith("/tmp/") and not os.access(disk, os.R_OK): isys.makeDevInode(disk[5:], disk) log("going to run %s" %(args,)) rc = iutil.execWithRedirect("/usr/sbin/sfdisk", args, stdout = "/dev/tty5", stderr = "/dev/tty5") if rc: raise SystemError fileSystemTypeRegister(prepbootFileSystem()) class ForeignFileSystem(FileSystemType): def __init__(self): FileSystemType.__init__(self) self.formattable = 0 self.checked = 0 self.name = "foreign" def formatDevice(self, entry, progress, chroot='/'): return fileSystemTypeRegister(ForeignFileSystem()) class PsudoFileSystem(FileSystemType): def __init__(self, name): FileSystemType.__init__(self) self.formattable = 0 self.checked = 0 self.name = name self.supported = 0 class ProcFileSystem(PsudoFileSystem): def __init__(self): PsudoFileSystem.__init__(self, "proc") fileSystemTypeRegister(ProcFileSystem()) class SysfsFileSystem(PsudoFileSystem): def __init__(self): PsudoFileSystem.__init__(self, "sysfs") fileSystemTypeRegister(SysfsFileSystem()) class SelinuxfsFileSystem(PsudoFileSystem): def __init__(self): PsudoFileSystem.__init__(self, "selinuxfs") fileSystemTypeRegister(SelinuxfsFileSystem()) class DevptsFileSystem(PsudoFileSystem): def __init__(self): PsudoFileSystem.__init__(self, "devpts") self.defaultOptions = "gid=5,mode=620" def isMountable(self): return 0 fileSystemTypeRegister(DevptsFileSystem()) class DevshmFileSystem(PsudoFileSystem): def __init__(self): PsudoFileSystem.__init__(self, "tmpfs") def isMountable(self): return 0 fileSystemTypeRegister(DevshmFileSystem()) class AutoFileSystem(PsudoFileSystem): def __init__(self): PsudoFileSystem.__init__(self, "auto") fileSystemTypeRegister(AutoFileSystem()) class BindFileSystem(AutoFileSystem): def __init__(self): PsudoFileSystem.__init__(self, "bind") def isMountable(self): return 1 fileSystemTypeRegister(BindFileSystem()) class FileSystemSet: def __init__(self): self.messageWindow = None self.progressWindow = None self.waitWindow = None self.mountcount = 0 self.migratedfs = 0 self.reset() self.volumesCreated = 0 def isActive(self): return self.mountcount != 0 def registerMessageWindow(self, method): self.messageWindow = method def registerProgressWindow(self, method): self.progressWindow = method def registerWaitWindow(self, method): self.waitWindow = method def reset (self): self.entries = [] proc = FileSystemSetEntry(Device(), '/proc', fileSystemTypeGet("proc")) self.add(proc) sys = FileSystemSetEntry(Device(), '/sys', fileSystemTypeGet("sysfs")) self.add(sys) pts = FileSystemSetEntry(Device(), '/dev/pts', fileSystemTypeGet("devpts"), "gid=5,mode=620") self.add(pts) shm = FileSystemSetEntry(Device(), '/dev/shm', fileSystemTypeGet("tmpfs")) self.add(shm) def verify (self): for entry in self.entries: if type(entry.__dict__) != type({}): raise RuntimeError, "fsset internals inconsistent" def add (self, entry): # remove any existing duplicate entries for existing in self.entries: if (existing.device.getDevice() == entry.device.getDevice() and existing.mountpoint == entry.mountpoint): self.remove(existing) # XXX debuggin' ## log ("fsset at %s\n" ## "adding entry for %s\n" ## "entry object %s, class __dict__ is %s", ## self, entry.mountpoint, entry, ## isys.printObject(entry.__dict__)) self.entries.append(entry) self.entries.sort (mountCompare) def remove (self, entry): self.entries.remove(entry) def getEntryByMountPoint(self, mount): for entry in self.entries: if entry.mountpoint == mount: return entry return None def getEntryByDeviceName(self, dev): for entry in self.entries: if entry.device.getDevice() == dev: return entry return None def copy (self): new = FileSystemSet() for entry in self.entries: new.add (entry) return new def fstab (self): format = "%-23s %-23s %-7s %-15s %d %d\n" fstab = "" for entry in self.entries: if entry.mountpoint: if entry.getLabel(): device = "LABEL=%s" % (entry.getLabel(),) else: device = devify(entry.device.getDevice()) fstab = fstab + entry.device.getComment() fstab = fstab + format % (device, entry.mountpoint, entry.fsystem.getName(), entry.options, entry.fsck, entry.order) return fstab def mtab (self): format = "%s %s %s %s 0 0\n" mtab = "" for entry in self.entries: if not entry.isMounted(): continue if entry.mountpoint: # swap doesn't end up in the mtab if entry.fsystem.getName() == "swap": continue if entry.options: options = "rw," + entry.options else: options = "rw" mtab = mtab + format % (devify(entry.device.getDevice()), entry.mountpoint, entry.fsystem.getName(), options) return mtab def raidtab(self): # set up raidtab... raidtab = "" for entry in self.entries: if entry.device.getName() == "RAIDDevice": raidtab = raidtab + entry.device.raidTab() return raidtab def mdadmConf(self): raident = 0 cf = """ # mdadm.conf written out by anaconda DEVICE partitions MAILADDR root """ for ent in self.entries: if ent.device.getName() != "RAIDDevice": continue raident +=1 cf = cf + ent.device.mdadmLine() if raident > 0: return cf return def write (self, prefix): f = open (prefix + "/etc/fstab", "w") f.write (self.fstab()) f.close () cf = self.mdadmConf() if cf: f = open (prefix + "/etc/mdadm.conf", "w") f.write (cf) f.close () # touch mtab open (prefix + "/etc/mtab", "w+") f.close () def restoreMigratedFstab(self, prefix): if not self.migratedfs: return fname = prefix + "/etc/fstab" if os.access(fname + ".rpmsave", os.R_OK): os.rename(fname + ".rpmsave", fname) def migratewrite(self, prefix): if not self.migratedfs: return fname = prefix + "/etc/fstab" f = open (fname, "r") lines = f.readlines() f.close() perms = os.stat(fname)[0] & 0777 os.rename(fname, fname + ".rpmsave") f = open (fname, "w+") os.chmod(fname, perms) for line in lines: fields = string.split(line) # try to be smart like in fsset.py::readFstab() if not fields or line[0] == "#": f.write(line) continue if len (fields) < 4 or len (fields) > 6: f.write(line) continue if string.find(fields[3], "noauto") != -1: f.write(line) continue mntpt = fields[1] entry = self.getEntryByMountPoint(mntpt) if not entry or not entry.getMigrate(): f.write(line) elif entry.origfsystem.getName() != fields[2]: f.write(line) else: fields[2] = entry.fsystem.getName() newline = "%-23s %-23s %-7s %-15s %s %s\n" % (fields[0], fields[1], fields[2], fields[3], fields[4], fields[5]) f.write(newline) f.close() # return the "boot" devicce def getBootDev(self): mntDict = {} bootDev = None for entry in self.entries: mntDict[entry.mountpoint] = entry.device # FIXME: this ppc stuff feels kind of crufty -- the abstraction # here needs a little bit of work if iutil.getPPCMacGen() == "NewWorld": for entry in self.entries: if entry.fsystem.getName() == "Apple Bootstrap": bootDev = entry.device elif (iutil.getPPCMachine() == "pSeries" or iutil.getPPCMachine() == "iSeries"): # we want the first prep partition or the first newly formatted one bestprep = None for entry in self.entries: if ((entry.fsystem.getName() == "PPC PReP Boot") and ((bestprep is None) or ((bestprep.format == 0) and (entry.format == 1)))): bestprep = entry if bestprep: bootDev = bestprep.device elif iutil.getArch() == "ia64": if mntDict.has_key("/boot/efi"): bootDev = mntDict['/boot/efi'] elif mntDict.has_key("/boot"): bootDev = mntDict['/boot'] else: bootDev = mntDict['/'] return bootDev def bootloaderChoices(self, diskSet, bl): ret = {} bootDev = self.getBootDev() if bootDev is None: log("no boot device set") return ret if bootDev.getName() == "RAIDDevice": ret['boot'] = (bootDev.device, N_("RAID Device")) ret['mbr'] = (bl.drivelist[0], N_("Master Boot Record (MBR)")) return ret if iutil.getPPCMacGen() == "NewWorld": ret['boot'] = (bootDev.device, N_("Apple Bootstrap")) n = 1 for entry in self.entries: if ((entry.fsystem.getName() == "Apple Bootstrap") and ( entry.device.getDevice() != bootDev.device)): ret['boot%d' %(n,)] = (entry.device.getDevice(), N_("Apple Bootstrap")) n = n + 1 return ret elif (iutil.getPPCMachine() == "pSeries" or iutil.getPPCMachine() == "iSeries"): ret['boot'] = (bootDev.device, N_("PPC PReP Boot")) return ret ret['boot'] = (bootDev.device, N_("First sector of boot partition")) ret['mbr'] = (bl.drivelist[0], N_("Master Boot Record (MBR)")) return ret # set active partition on disks # if an active partition is set, leave it alone; if none set # set either our boot partition or the first partition on the drive active def setActive(self, diskset): dev = self.getBootDev() if dev is None: return bootDev = dev.device # on ia64, *only* /boot/efi should be marked bootable # similarly, on pseries, we really only want the PReP partition active if (iutil.getArch() == "ia64" or iutil.getPPCMachine() == "pSeries" or iutil.getPPCMachine() == "iSeries"): part = partedUtils.get_partition_by_name(diskset.disks, bootDev) if part and part.is_flag_available(parted.PARTITION_BOOT): part.set_flag(parted.PARTITION_BOOT, 1) return for drive in diskset.disks.keys(): foundActive = 0 bootPart = None disk = diskset.disks[drive] part = disk.next_partition() while part: if not part.is_active(): part = disk.next_partition(part) continue if not part.is_flag_available(parted.PARTITION_BOOT): foundActive = 1 part = None continue if part.get_flag(parted.PARTITION_BOOT): foundActive = 1 part = None continue if not bootPart: bootPart = part if partedUtils.get_partition_name(part) == bootDev: bootPart = part part = disk.next_partition(part) if bootPart and not foundActive: bootPart.set_flag(parted.PARTITION_BOOT, 1) if bootPart: del bootPart def formatSwap (self, chroot): formatted = [] notformatted = [] for entry in self.entries: if (not entry.fsystem or not entry.fsystem.getName() == "swap" or entry.isMounted()): continue if not entry.getFormat(): notformatted.append(entry) continue try: self.formatEntry(entry, chroot) formatted.append(entry) except SystemError: if self.messageWindow: self.messageWindow(_("Error"), _("An error occurred trying to " "initialize swap on device %s. This " "problem is serious, and the install " "cannot continue.\n\n" "Press to reboot your system.") % (entry.device.getDevice(),)) sys.exit(0) for entry in formatted: try: self.labelEntry(entry, chroot) except SystemError: # should be OK, fall back to by device pass # find if there's a label on the ones we're not formatting for entry in notformatted: dev = entry.device.getDevice() if not dev or dev == "none": continue try: label = isys.readFSLabel(dev) except: continue if label: entry.setLabel(label) def turnOnSwap (self, chroot): for entry in self.entries: if (entry.fsystem and entry.fsystem.getName() == "swap" and not entry.isMounted()): try: entry.mount(chroot) self.mountcount = self.mountcount + 1 except SystemError, (num, msg): if self.messageWindow: self.messageWindow(_("Error"), _("Error enabling swap device %s: " "%s\n\n" "This most likely means this " "swap partition has not been " "initialized." "\n\n" "Press OK to reboot your " "system.") % (entry.device.getDevice(), msg)) sys.exit(0) def labelEntry(self, entry, chroot): label = entry.device.getLabel() if label: entry.setLabel(label) elif entry.device.doLabel is not None: entry.fsystem.labelDevice(entry, chroot) def formatEntry(self, entry, chroot): log("formatting %s as %s" %(entry.mountpoint, entry.fsystem.name)) entry.fsystem.formatDevice(entry, self.progressWindow, chroot) def checkEntry(self, entry, chroot): log("checking %s type %s" %(entry.mountpoint, entry.fsystem.name)) entry.fsystem.checkDevice(entry, self.progressWindow, chroot) def badblocksEntry(self, entry, chroot): entry.fsystem.badblocksDevice(entry, self.progressWindow, chroot) def getMigratableEntries(self): retval = [] for entry in self.entries: if entry.origfsystem and entry.origfsystem.isMigratable(): retval.append(entry) return retval def formattablePartitions(self): list = [] for entry in self.entries: if entry.fsystem.isFormattable(): list.append (entry) return list def checkBadblocks(self, chroot='/'): for entry in self.entries: if (not entry.fsystem.isFormattable() or not entry.getBadblocks() or entry.isMounted()): continue try: self.badblocksEntry(entry, chroot) except BadBlocksError: log("Bad blocks detected on device %s",entry.device.getDevice()) if self.messageWindow: self.messageWindow(_("Error"), _("Bad blocks have been detected on " "device /dev/%s. We do " "not recommend you use this device." "\n\n" "Press to reboot your system") % (entry.device.getDevice(),)) sys.exit(0) except SystemError: if self.messageWindow: self.messageWindow(_("Error"), _("An error occurred searching for " "bad blocks on %s. This problem is " "serious, and the install cannot " "continue.\n\n" "Press to reboot your system.") % (entry.device.getDevice(),)) sys.exit(0) def createLogicalVolumes (self, chroot='/'): # first set up the volume groups for entry in self.entries: if entry.fsystem.name == "volume group (LVM)": entry.device.setupDevice(chroot) # then set up the logical volumes for entry in self.entries: if isinstance(entry.device, LogicalVolumeDevice): entry.device.setupDevice(chroot) self.volumesCreated = 1 def makeFilesystems (self, chroot='/'): formatted = [] notformatted = [] for entry in self.entries: if (not entry.fsystem.isFormattable() or not entry.getFormat() or entry.isMounted()): notformatted.append(entry) continue try: self.formatEntry(entry, chroot) formatted.append(entry) except SystemError: if self.messageWindow: self.messageWindow(_("Error"), _("An error occurred trying to " "format %s. This problem is " "serious, and the install cannot " "continue.\n\n" "Press to reboot your system.") % (entry.device.getDevice(),)) sys.exit(0) for entry in formatted: try: self.labelEntry(entry, chroot) except SystemError: # should be OK, we'll still use the device name to mount. pass # go through and have labels for the ones we don't format for entry in notformatted: dev = entry.device.getDevice() if not dev or dev == "none": continue if not entry.mountpoint or entry.mountpoint == "swap": continue try: label = isys.readFSLabel(dev) except: continue if label: entry.setLabel(label) else: self.labelEntry(entry, chroot) def haveMigratedFilesystems(self): return self.migratedfs def migrateFilesystems (self, chroot='/'): if self.migratedfs: return for entry in self.entries: if not entry.origfsystem: continue if not entry.origfsystem.isMigratable() or not entry.getMigrate(): continue try: entry.origfsystem.migrateFileSystem(entry, self.messageWindow, chroot) if entry.fsystem.isCheckable(): self.checkEntry(entry, chroot) except SystemError: if self.messageWindow: self.messageWindow(_("Error"), _("An error occurred trying to " "migrate %s. This problem is " "serious, and the install cannot " "continue.\n\n" "Press to reboot your system.") % (entry.device.getDevice(),)) sys.exit(0) self.migratedfs = 1 def mountFilesystems(self, instPath = '/', raiseErrors = 0, readOnly = 0): for entry in self.entries: if not entry.fsystem.isMountable(): continue try: log("trying to mount %s on %s" %(entry.device.getDevice(), entry.mountpoint)) entry.mount(instPath, readOnly = readOnly) self.mountcount = self.mountcount + 1 except OSError, (num, msg): if self.messageWindow: if num == errno.EEXIST: self.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 reboot your " "system.") % (entry.mountpoint,)) else: self.messageWindow(_("Invalid mount point"), _("An error occurred when trying " "to create %s: %s. This is " "a fatal error and the install " "cannot continue.\n\n" "Press to reboot your " "system.") % (entry.mountpoint, msg)) sys.exit(0) except SystemError, (num, msg): if raiseErrors: raise SystemError, (num, msg) if self.messageWindow: self.messageWindow(_("Error"), _("Error mounting device %s as %s: " "%s\n\n" "This most likely means this " "partition has not been formatted." "\n\n" "Press OK to reboot your system.") % (entry.device.getDevice(), entry.mountpoint, msg)) sys.exit(0) self.makeLVMNodes(instPath) def makeLVMNodes(self, instPath, trylvm1 = 0): # XXX hack to make the device node exist for the root fs if # it's a logical volume so that mkinitrd can create the initrd. root = self.getEntryByMountPoint("/") rootlvm1 = 0 if trylvm1: dev = root.device.getDevice() # lvm1 major is 58 if os.access("%s/dev/%s" %(instPath, dev), os.R_OK) and posix.major(os.stat("%s/dev/%s" %(instPath, dev)).st_rdev) == 58: rootlvm1 = 1 if isinstance(root.device, LogicalVolumeDevice) or rootlvm1: # now make sure all of the device nodes exist. *sigh* rc = iutil.execWithRedirect("lvm", ["lvm", "vgmknodes", "-v"], stdout = "/tmp/lvmout", stderr = "/tmp/lvmout", searchPath = 1) rootDev = "/dev/%s" % (root.device.getDevice(),) rootdir = instPath + rootDev[:string.rfind(rootDev, "/")] if not os.path.exists(instPath + "/dev/mapper/control"): iutil.makeDMNode(root=instPath) if not os.path.isdir(rootdir): os.makedirs(rootdir) dmdev = "/dev/mapper/" + root.device.getDevice().replace("/", "-") if os.path.exists(instPath + dmdev): os.unlink(instPath + dmdev) iutil.copyDeviceNode(dmdev, instPath + dmdev) # unlink existing so that we dtrt on upgrades if os.path.exists(instPath + rootDev): os.unlink(instPath + rootDev) os.symlink(dmdev, instPath + rootDev) if not os.path.isdir("%s/etc/lvm" %(instPath,)): os.makedirs("%s/etc/lvm" %(instPath,)) def filesystemSpace(self, chroot='/'): space = [] for entry in self.entries: if not entry.isMounted(): continue # we can't put swap files on swap partitions; that's nonsense if entry.mountpoint == "swap": continue path = "%s/%s" % (chroot, entry.mountpoint) try: space.append((entry.mountpoint, isys.fsSpaceAvailable(path))) except SystemError: log("failed to get space available in filesystemSpace() for %s" %(entry.mountpoint,)) def spaceSort(a, b): (m1, s1) = a (m2, s2) = b if (s1 > s2): return -1 elif s1 < s2: return 1 return 0 space.sort(spaceSort) return space def hasDirtyFilesystems(self, mountpoint): ret = [] for entry in self.entries: # XXX - multifsify, virtualize isdirty per fstype if entry.fsystem.getName() != "ext2": continue if entry.getFormat(): continue if isinstance(entry.device.getDevice(), BindMountDevice): continue try: if isys.ext2IsDirty(entry.device.getDevice()): log("%s is a dirty ext2 partition" % entry.device.getDevice()) ret.append(entry.device.getDevice()) except Exception, e: log("got an exception checking %s for being dirty, hoping it's not" %(entry.device.getDevice(),)) return ret def umountFilesystems(self, instPath, ignoreErrors = 0): # XXX remove special case try: isys.umount(instPath + '/proc/bus/usb', removeDir = 0) log("Umount USB OK") except: # log("Umount USB Fail") pass # take a slice so we don't modify self.entries reverse = self.entries[:] reverse.reverse() for entry in reverse: entry.umount(instPath) class FileSystemSetEntry: def __init__ (self, device, mountpoint, fsystem=None, options=None, origfsystem=None, migrate=0, order=-1, fsck=-1, format=0, badblocks = 0): if not fsystem: fsystem = fileSystemTypeGet("ext2") self.device = device self.mountpoint = mountpoint self.fsystem = fsystem self.origfsystem = origfsystem self.migrate = migrate if options: self.options = options else: self.options = fsystem.getDefaultOptions(mountpoint) self.mountcount = 0 self.label = None if fsck == -1: self.fsck = fsystem.isChecked() else: self.fsck = fsck if order == -1: if mountpoint == '/': self.order = 1 elif self.fsck: self.order = 2 else: self.order = 0 else: self.order = order if format and not fsystem.isFormattable(): raise RuntimeError, ("file system type %s is not formattable, " "but has been added to fsset with format " "flag on" % fsystem.getName()) self.format = format self.badblocks = badblocks def mount(self, chroot='/', devPrefix='/tmp', readOnly = 0): device = self.device.setupDevice(chroot, devPrefix=devPrefix) # FIXME: we really should migrate before turnOnFilesystems. # but it's too late now if (self.migrate == 1) and (self.origfsystem is not None): self.origfsystem.mount(device, "%s/%s" % (chroot, self.mountpoint), readOnly = readOnly, bindMount = isinstance(self.device, BindMountDevice)) else: self.fsystem.mount(device, "%s/%s" % (chroot, self.mountpoint), readOnly = readOnly, bindMount = isinstance(self.device, BindMountDevice)) self.mountcount = self.mountcount + 1 def umount(self, chroot='/'): if self.mountcount > 0: try: self.fsystem.umount(self.device, "%s/%s" % (chroot, self.mountpoint)) self.mountcount = self.mountcount - 1 except RuntimeError: pass def setFileSystemType(self, fstype): self.fsystem = fstype def setBadblocks(self, state): self.badblocks = state def getBadblocks(self): return self.badblocks def getMountPoint(self): return self.mountpoint def setFormat (self, state): if self.migrate and state: raise ValueError, "Trying to set format bit on when migrate is set!" self.format = state def getFormat (self): return self.format def setMigrate (self, state): if self.format and state: raise ValueError, "Trying to set migrate bit on when format is set!" self.migrate = state def getMigrate (self): return self.migrate def isMounted (self): return self.mountcount > 0 def getLabel (self): return self.label def setLabel (self, label): self.label = label def __str__(self): if not self.mountpoint: mntpt = "None" else: mntpt = self.mountpoint str = ("fsentry -- device: %(device)s mountpoint: %(mountpoint)s\n" " fsystem: %(fsystem)s format: %(format)s\n" " ismounted: %(mounted)s \n"% {"device": self.device.getDevice(), "mountpoint": mntpt, "fsystem": self.fsystem.getName(), "format": self.format, "mounted": self.mountcount}) return str class Device: def __init__(self): self.device = "none" self.fsoptions = {} self.label = None self.isSetup = 0 self.doLabel = 1 def getComment (self): return "" def getDevice (self, asBoot = 0): return self.device def setupDevice (self, chroot='/', devPrefix='/tmp'): return self.device def cleanupDevice (self, chroot, devPrefix='/tmp'): pass def solidify (self): pass def getName(self): return self.__class__.__name__ def getLabel(self): try: return isys.readFSLabel(self.setupDevice(), makeDevNode = 0) except: return "" class DevDevice(Device): """Device with a device node rooted in /dev that we just always use the pre-created device node for.""" def __init__(self, dev): Device.__init__(self) self.device = dev def getDevice(self, asBoot = 0): return self.device def setupDevice(self, chroot='/', devPrefix='/dev'): return "/dev/%s" %(self.getDevice(),) class RAIDDevice(Device): # XXX usedMajors does not take in account any EXISTING md device # on the system for installs. We need to examine all partitions # to investigate which minors are really available. usedMajors = {} # members is a list of Device based instances that will be # a part of this raid device def __init__(self, level, members, minor=-1, spares=0, existing=0, chunksize = 64): Device.__init__(self) self.level = level self.members = members self.spares = spares self.numDisks = len(members) - spares self.isSetup = existing self.doLabel = None if chunksize is not None: self.chunksize = chunksize else: self.chunksize = 256 if len(members) < spares: raise RuntimeError, ("you requiested more spare devices " "than online devices!") if level == 5: if self.numDisks < 3: raise RuntimeError, "RAID 5 requires at least 3 online members" # there are 32 major md devices, 0...31 if minor == -1 or minor is None: for I in range(32): if not RAIDDevice.usedMajors.has_key(I): minor = I break if minor == -1: raise RuntimeError, ("Unable to allocate minor number for " "raid device") RAIDDevice.usedMajors[minor] = None self.device = "md" + str(minor) self.minor = minor # make sure the list of raid members is sorted self.members.sort() def __del__ (self): del RAIDDevice.usedMajors[self.minor] def ext2Args (self): if self.level == 5: return [ '-R', 'stride=%d' % ((self.numDisks - 1) * 16) ] elif self.level == 0: return [ '-R', 'stride=%d' % (self.numDisks * 16) ] return [] def mdadmLine (self, devPrefix="/dev"): return "ARRAY %s/%s super-minor=%s\n" %(devPrefix, self.device, self.minor) def raidTab (self, devPrefix='/dev'): d = self.numDisks if d == 1: d = 2 entry = "" entry = entry + "raiddev %s/%s\n" % (devPrefix, self.device,) entry = entry + "raid-level %d\n" % (self.level,) entry = entry + "nr-raid-disks %d\n" % (d) entry = entry + "chunk-size %s\n" %(self.chunksize,) entry = entry + "persistent-superblock 1\n" entry = entry + "nr-spare-disks %d\n" % (self.spares,) i = 0 for device in self.members[:self.numDisks]: entry = entry + " device %s/%s\n" % (devPrefix, device) entry = entry + " raid-disk %d\n" % (i,) i = i + 1 i = 0 for device in self.members[self.numDisks:]: entry = entry + " device %s/%s\n" % (devPrefix, device) entry = entry + " spare-disk %d\n" % (i,) i = i + 1 if self.numDisks == 1: entry = entry + " device dev/null\n" entry = entry + " failed-disk 1\n" return entry def setupDevice (self, chroot="/", devPrefix='/dev'): def devify(x): return "/dev/%s" %(x,) node = "%s/%s" % (devPrefix, self.device) isys.makeDevInode(self.device, node) if not self.isSetup: for device in self.members: PartitionDevice(device).setupDevice(chroot, devPrefix=devPrefix) args = ["/usr/sbin/mdadm", "--create", "/dev/%s" %(self.device,), "--run", "--chunk=%s" %(self.chunksize,), "--level=%s" %(self.level,), ] if self.spares > 0: args.append("--spare-devices=%s" %(self.spares,),) if self.numDisks == 1: args.append("--raid-devices=2") else: args.append("--raid-devices=%s" %(self.numDisks,),) args.extend(map(devify, self.members)) if self.numDisks == 1: args.append("missing") log("going to run: %s" %(args,)) iutil.execWithRedirect (args[0], args, stderr="/dev/tty5", stdout="/dev/tty5") raid.register_raid_device(self.device, self.members[:], self.level, self.numDisks) self.isSetup = 1 else: isys.raidstart(self.device, self.members[0]) return node def getDevice (self, asBoot = 0): if not asBoot: return self.device else: return self.members[0] def solidify(self): return ext2 = fileSystemTypeGet("ext2") ext2.registerDeviceArgumentFunction(RAIDDevice, RAIDDevice.ext2Args) class VolumeGroupDevice(Device): def __init__(self, name, physvols, pesize = 32768, existing = 0): """Creates a VolumeGroupDevice. name is the name of the volume group physvols is a list of Device objects which are the physical volumes pesize is the size of physical extents in kilobytes existing is whether this vg previously existed. """ Device.__init__(self) self.physicalVolumes = physvols self.isSetup = existing self.name = name self.device = name self.isSetup = existing self.physicalextentsize = pesize def setupDevice (self, chroot="/", devPrefix='/tmp'): nodes = [] for volume in self.physicalVolumes: # XXX the lvm tools are broken and will only work for /dev node = volume.setupDevice(chroot, devPrefix="/dev") # XXX I should check if the pv is set up somehow so that we # can have preexisting vgs and add new pvs to them. if not self.isSetup: # now make the device into a real physical volume # XXX I don't really belong here. should # there be a PhysicalVolumeDevice(PartitionDevice) ? lvm.writeForceConf() rc = iutil.execWithRedirect("lvm", ["lvm", "pvcreate", "-ff", "-y", "-v", node], stdout = "/tmp/lvmout", stderr = "/tmp/lvmout", searchPath = 1) if rc: raise SystemError, "pvcreate failed for %s" % (volume,) lvm.unlinkConf() lvm.wipeOtherMetadataFromPV(node) nodes.append(node) if not self.isSetup: # rescan now that we've recreated pvs. ugh. lvm.writeForceConf() lvm.vgscan() args = [ "lvm", "vgcreate", "-v", "-An", "-s", "%sk" %(self.physicalextentsize,), self.name ] args.extend(nodes) rc = iutil.execWithRedirect(args[0], args, stdout = "/tmp/lvmout", stderr = "/tmp/lvmout", searchPath = 1) if rc: raise SystemError, "vgcreate failed for %s" %(self.name,) lvm.unlinkConf() self.isSetup = 1 else: lvm.vgscan() lvm.vgactivate() return "/dev/%s" % (self.name,) def solidify(self): return class LogicalVolumeDevice(Device): # note that size is in megabytes! def __init__(self, volumegroup, size, vgname, existing = 0): Device.__init__(self) self.volumeGroup = volumegroup self.size = size self.name = vgname self.isSetup = 0 self.isSetup = existing self.doLabel = None # these are attributes we might want to expose. or maybe not. # self.chunksize # self.stripes # self.stripesize # self.extents # self.readaheadsectors def setupDevice(self, chroot="/", devPrefix='/tmp'): if not self.isSetup: lvm.writeForceConf() rc = iutil.execWithRedirect("lvm", ["lvm", "lvcreate", "-L", "%dM" % (self.size,), "-n", self.name, "-An", self.volumeGroup], stdout = "/tmp/lvmout", stderr = "/tmp/lvmout", searchPath = 1) if rc: raise SystemError, "lvcreate failed for %s" %(self.name,) lvm.unlinkConf() self.isSetup = 1 return "/dev/%s" % (self.getDevice(),) def getDevice(self, asBoot = 0): return "%s/%s" % (self.volumeGroup, self.name) def solidify(self): return class PartitionDevice(Device): def __init__(self, partition): Device.__init__(self) if type(partition) != types.StringType: raise ValueError, "partition must be a string" self.device = partition def setupDevice(self, chroot="/", devPrefix='/tmp'): path = '%s/%s' % (devPrefix, self.getDevice(),) isys.makeDevInode(self.getDevice(), path) return path class PartedPartitionDevice(PartitionDevice): def __init__(self, partition): Device.__init__(self) self.device = None self.partition = partition def getDevice(self, asBoot = 0): if not self.partition: return self.device return partedUtils.get_partition_name(self.partition) def solidify(self): # drop reference on the parted partition object and note # the current minor number allocation self.device = self.getDevice() self.partition = None class BindMountDevice(Device): def __init__(self, directory): Device.__init__(self) self.device = directory def setupDevice(self, chroot="/", devPrefix="/tmp"): return chroot + self.device class SwapFileDevice(Device): def __init__(self, file): Device.__init__(self) self.device = file self.size = 0 def setSize (self, size): self.size = size def setupDevice (self, chroot="/", devPrefix='/tmp'): file = os.path.normpath(chroot + self.getDevice()) if not os.access(file, os.R_OK): if self.size: # make sure the permissions are set properly fd = os.open(file, os.O_CREAT, 0600) os.close(fd) isys.ddfile(file, self.size, None) else: raise SystemError, (0, "swap file creation necessary, but " "required size is unknown.") return file # This is a device that describes a swap file that is sitting on # the loopback filesystem host for partitionless installs. # The piggypath is the place where the loopback file host filesystem # will be mounted class PiggybackSwapFileDevice(SwapFileDevice): def __init__(self, piggypath, file): SwapFileDevice.__init__(self, file) self.piggypath = piggypath def setupDevice(self, chroot="/", devPrefix='/tmp'): return SwapFileDevice.setupDevice(self, self.piggypath, devPrefix) class LoopbackDevice(Device): def __init__(self, hostPartition, hostFs): Device.__init__(self) self.host = "/dev/" + hostPartition self.hostfs = hostFs self.device = "loop1" def setupDevice(self, chroot="/", devPrefix='/tmp/'): if not self.isSetup: isys.mount(self.host[5:], "/mnt/loophost", fstype = "vfat") self.device = allocateLoopback("/mnt/loophost/redhat.img") if not self.device: raise SystemError, "Unable to allocate loopback device" self.isSetup = 1 path = '%s/%s' % (devPrefix, self.getDevice()) else: path = '%s/%s' % (devPrefix, self.getDevice()) isys.makeDevInode(self.getDevice(), path) path = os.path.normpath(path) return path def getComment (self): return "# LOOP1: %s %s /redhat.img\n" % (self.host, self.hostfs) def makeDevice(dev): if dev.startswith('md'): try: (mdname, devices, level, numActive) = raid.lookup_raid_device(dev) device = RAIDDevice(level, devices, minor=int(mdname[2:]), spares=len(devices) - numActive, existing=1) except KeyError: device = DevDevice(dev) else: device = DevDevice(dev) return device # XXX fix RAID def readFstab (path, intf = None): fsset = FileSystemSet() # first, we look at all the disks on the systems and get any ext2/3 # labels off of the filesystem. # temporary, to get the labels diskset = partedUtils.DiskSet() diskset.openDevices() labels = diskset.getLabels() labelToDevice = {} for device, label in labels.items(): if not labelToDevice.has_key(label): labelToDevice[label] = device elif intf is not None: intf.messageWindow(_("Duplicate Labels"), _("Multiple devices on your system are " "labelled %s. Labels across devices must be " "unique for your system to function " "properly.\n\n" "Please fix this problem and restart the " "installation process.") %(label,), type="custom", custom_icon="error", custom_buttons=[_("_Reboot")]) sys.exit(0) else: log("WARNING!!! Duplicate labels for %s, but no intf so trying " "to continue" %(label,)) # mark these labels found on the system as used so the factory # doesn't give them to another device labelFactory.reserveLabels(labels) loopIndex = {} f = open (path, "r") lines = f.readlines () f.close() for line in lines: fields = string.split (line) if not fields: continue if line[0] == "#": # skip all comments continue # all valid fstab entries have 6 fields; if the last two are missing # they are assumed to be zero per fstab(5) if len(fields) < 4: continue elif len(fields) == 4: fields.append(0) fields.append(0) elif len(fields) == 5: fields.append(0) elif len(fields) > 6: continue if string.find(fields[3], "noauto") != -1: continue # shenanigans to handle ext3,ext2 format in fstab fstotry = fields[2] if fstotry.find(","): fstotry = fstotry.split(",") else: fstotry = [ fstotry ] fsystem = None for fs in fstotry: # if we don't support mounting the filesystem, continue if not fileSystemTypes.has_key(fs): continue fsystem = fileSystemTypeGet(fs) break if fsystem is None: continue label = None if fields[0] == "none": device = Device() elif ((string.find(fields[3], "bind") != -1) and fields[0].startswith("/")): # it's a bind mount, they're Weird (tm) device = BindMountDevice(fields[0]) fsystem = fileSystemTypeGet("bind") elif len(fields) >= 6 and fields[0].startswith('LABEL='): label = fields[0][6:] if labelToDevice.has_key(label): device = makeDevice(labelToDevice[label]) else: log ("Warning: fstab file has LABEL=%s, but this label " "could not be found on any file system", label) # bad luck, skip this entry. continue elif fields[2] == "swap" and not fields[0].startswith('/dev/'): # swap files file = fields[0] if file.startswith('/initrd/loopfs/'): file = file[14:] device = PiggybackSwapFileDevice("/mnt/loophost", file) else: device = SwapFileDevice(file) elif fields[0].startswith('/dev/loop'): # look up this loop device in the index to find the # partition that houses the filesystem image # XXX currently we assume /dev/loop1 if loopIndex.has_key(device): (dev, fs) = loopIndex[device] device = LoopbackDevice(dev, fs) elif fields[0].startswith('/dev/'): device = makeDevice(fields[0][5:]) else: continue # if they have a filesystem being mounted as auto, we need # to sniff around a bit to figure out what it might be # if we fail at all, though, just ignore it if fsystem == "auto" and device.getDevice() != "none": try: tmp = partedUtils.sniffFilesystemType("/dev/%s" %(device.setupDevice(),)) if tmp is not None: fsystem = tmp except: pass entry = FileSystemSetEntry(device, fields[1], fsystem, fields[3], origfsystem=fsystem) if label: entry.setLabel(label) fsset.add(entry) return fsset def getDevFD(device): try: fd = os.open(device, os.O_RDONLY) except: file = '/tmp/' + device try: isys.makeDevInode(device, file) fd = os.open(file, os.O_RDONLY) except: return -1 return fd def isValidExt2(device): fd = getDevFD(device) if fd == -1: return 0 buf = os.read(fd, 2048) os.close(fd) if len(buf) != 2048: return 0 if struct.unpack("