# this owns partitioning, fstab generation, disk scanning, raid, etc # # a fstab is returned as a list of: # ( mntpoint, device, fsystem, doFormat, size, (file) ) # tuples, sorted by mntpoint; note that device may be a raid device; the file # value is optional, and if it exists it names a file which will be created # on the (already existant!) device and loopback mounted # # the swap information is stored as ( device, format ) tuples # # raid lists are stored as ( mntpoint, raiddevice, fssystem, doFormat, # raidlevel, [ device list ] ) # # we always store as much of the fstab within the disk druid structure # as we can -- Don't Duplicate Data. import isys import iutil import os import string import raid import struct import _balkan import sys from translate import _ from log import log def isValidExt2(device): file = '/tmp/' + device isys.makeDevInode(device, file) try: fd = os.open(file, os.O_RDONLY) except: return 0 buf = os.read(fd, 2048) os.close(fd) if len(buf) != 2048: return 0 if struct.unpack("H", buf[1080:1082]) == (0xef53,): return 1 return 0 class Fstab: def attemptPartitioning(self, partitions, prefstab, clearParts): attempt = [] swapCount = 0 # # this is probably not required # # fstab = [] # for (mntpoint, dev, fstype, reformat, size) in self.extraFilesystems: # fstab.append ((dev, mntpoint)) fstab = [] if prefstab != None: for (mntpoint, (dev, fstype, reformat)) in prefstab: fstab.append ((dev, mntpoint)) # if doing a harddrive install mark source partition so it isnt erased if self.protectList: for i in self.protectList: fstab.append ((i, "DONT ERASE "+i)) ddruid = self.createDruid(fstab = fstab, ignoreBadDrives = 1) # skip out here if not partitions defined, just onpart def's # cant do this now, have to let attempt fixup partition types #if partitions == None: # return ddruid for (mntpoint, sizespec, locspec, typespec, fsopts) in partitions: (device, part, primOnly) = locspec (size, maxsize, grow) = sizespec (type, active) = typespec if (part == 0): part = -1 if (type == 0): type = 0x83 if (mntpoint == "swap"): mntpoint = "Swap%04d-auto" % swapCount swapCount = swapCount + 1 type = 0x82 elif (mntpoint[0:5] == "raid."): type = 0xfd attempt.append((mntpoint, size, maxsize, type, grow, -1, device, part, primOnly, active)) success = 0 try: rc = ddruid.attempt (attempt, "Junk Argument", clearParts) success = 1 except self.fserror, msg: log("Autopartitioning failed because following errors:") for i in string.split(msg, '\n'): if len(i) > 0: log (i) pass if success == 1: # configure kickstart requested ext2 filesystem options for (mntpoint, sizespce, locspec, typespec, fsopts) in partitions: if fsopts != None: self.setfsOptions (mntpoint, fsopts) # sanity check for (partition, mount, fsystem, size) in ddruid.getFstab(): if mount == '/' and fsystem != 'ext2': raise ValueError, "--onpart specified for mount point / on non-ext2 partition" # if mount point other than '/' is on non-ext2, better have # specified --noformat for (mntpoint, (dev, fstype, reformat)) in prefstab: if mntpoint == mount and reformat != 0 and fsystem != fstype: raise ValueError, "--onpart specified for mount point %s on non-ext2 partition without --noformat option" % mntpoint return ddruid else: return None def getMbrDevice(self): return self.driveList()[0] def getBootDevice(self): bootDevice = None rootDevice = None for (mntpoint, partition, fsystem, doFormat, size) in self.mountList(): if mntpoint == '/': rootDevice = partition elif mntpoint == '/boot': bootDevice = partition if not bootDevice: bootDevice = rootDevice return bootDevice def getRootDevice(self): for (mntpoint, partition, fsystem, doFormat, size) in self.mountList(): if mntpoint == '/': return (partition, fsystem) def rootOnLoop(self): for (mntpoint, partition, fsystem, doFormat, size) in self.mountList(): if mntpoint == '/': if fsystem == "vfat": return 1 else: return 0 raise ValueError, "no root device has been set" def getLoopbackSize(self): return (self.loopbackSize, self.loopbackSwapSize) def setLoopbackSwapSize(self, swapSize): self.loopbackSwapSize = swapSize def setLoopbackSize(self, size, swapSize): self.loopbackSize = size self.loopbackSwapSize = swapSize def setDruid(self, druid, raid): self.ddruid = druid self.fsCache = {} for (mntPoint, raidDev, level, devices) in raid: if mntPoint == "swap": fsystem = "swap" else: fsystem = "ext2" self.addNewRaidDevice(mntPoint, raidDev, fsystem, level, devices) def rescanPartitions(self, clearFstabCache = 0): if self.ddruid: self.closeDrives(clearFstabCache) fstab = [] for (mntpoint, dev, fstype, reformat, size) in self.cachedFstab: fstab.append ((dev, mntpoint)) self.ddruid = self.fsedit(0, self.driveList(), fstab, self.zeroMbr, self.readOnly, self.upgrade, self.expert, self.edd) del self.cachedFstab def closeDrives(self, clearFstabCache = 0): # we expect a rescanPartitions() after this!!! if clearFstabCache: self.cachedFstab = [] else: self.cachedFstab = self.mountList(skipExtra = 1) self.ddruid = None def setReadonly(self, readOnly): self.readOnly = readOnly self.ddruid.setReadOnly(readOnly) def savePartitions(self): import sys try: self.ddruid.save() except SystemError: # We can't reread the partition table for some reason. Display # an error message and reboot self.messageWindow(_("Error"), _("The kernel is unable to read your new partitioning " "information, probably because you modified extended " "partitions. While this is not critical, you must " "reboot your machine before proceeding. Insert the " "Red Hat boot disk now and press \"Ok\" to reboot " "your system.\n")) sys.exit(0) def runDruid(self): rc = self.ddruid.edit() return rc def updateFsCache(self): realFs = {} for (partition, mount, fsystem, size) in self.ddruid.getFstab(): realFs[(partition, mount)] = 1 for ((partition, mount)) in self.fsCache.keys(): if not realFs.has_key((partition, mount)): del self.fsCache[(partition, mount)] def setFormatFilesystem(self, device, format): for (mntpoint, partition, fsystem, doFormat, size) in self.mountList(): if partition == device: self.fsCache[(partition, mntpoint)] = (format,) return raise TypeError, "unknown partition to format %s" % (device,) # sorted largest to smallest def spaceSort(self, a, b): (m1, s1) = a (m2, s2) = b if (s1 > s2): return -1 elif s1 < s2: return 1 return 0 def filesystemSpace(self, topMount): space = [] for (mntpoint, partition, fsystem, doFormat, size) in self.mountList(): if fsystem == 'ext2': space.append((mntpoint, isys.fsSpaceAvailable(topMount + '/' + mntpoint))) elif mntpoint == '/' and fsystem == 'vfat': space.append((mntpoint, isys.fsSpaceAvailable(topMount + '/' + mntpoint))) space.sort(self.spaceSort) return space def formatAllFilesystems(self): for (partition, mount, fsystem, size) in self.ddruid.getFstab(): if mount[0] == '/' and fsystem == "ext2": self.fsCache[(partition, mount)] = (1,) (devices, raid) = self.ddruid.partitionList() for (mount, partition, fsystem, level, i, j, deviceList) in \ self.raidList()[1]: if mount[0] == '/' and fsystem == "ext2": self.fsCache[(partition, mount)] = (1,) # FSOptions is a list of options to be passed when creating fs for mount def setfsOptions (self, mount, fsopts): self.fsOptions[mount] = fsopts; return def getfsOptions (self, mount): if self.fsOptions.has_key(mount): return self.fsOptions[mount] else: return None def clearfsOptions (self): self.fsOptions = {} return def partitionList(self): return self.ddruid.partitionList() def writeCleanupPath(self, f): if self.rootOnLoop(): # swap gets turned off by init, then turn off loop1, and filesystem # unmounts will just happen f.write("umount /mnt/sysimage/proc\n") f.write("umount /mnt/sysimage\n") isys.makeDevInode("loop1", "/tmp/loop1") f.write("lounsetup /tmp/loop1\n") def getprotectedList(self): if self.protectList: return self.protectList else: return [] def formattablePartitions(self): l = [] for item in self.mountList(): (mount, dev, fstype, format, size) = item # dont format protected partitions for n in self.getprotectedList(): if n == dev: continue if fstype == "ext2" or (fstype == "vfat" and mount == "/boot/efi"): l.append(item) return l def driveList(self): drives = isys.hardDriveDict().keys() drives.sort (isys.compareDrives) return drives def drivesByName(self): return isys.hardDriveDict() def swapList(self): fstab = [] for (partition, mount, fsystem, size) in self.ddruid.getFstab(): if fsystem != "swap": continue fstab.append((partition, 1)) # Add raid mounts to mount list (devices, raid) = self.raidList() for (mntpoint, device, fsType, raidType, start, size, makeup) in raid: if fsType != "swap": continue fstab.append((device, 1)) for n in self.extraFilesystems: (mntpoint, device, fsType, doFormat, size) = n if fsType != "swap": continue fstab.append((device, 1)) return fstab def turnOffSwap(self): if not self.swapOn: return self.swapOn = 0 if self.rootOnLoop() and self.loopbackSwapSize: isys.swapoff("/mnt/loophost/rh-swap.img") for (device, doFormat) in self.swapList(): file = '/tmp/swap/' + device isys.swapoff(file) def turnOnSwap(self, formatSwap = 1): # we could be smarter about this if self.swapOn: return self.swapOn = 1 if self.rootOnLoop() and self.loopbackSwapSize: (rootDev, rootFs) = self.getRootDevice() isys.mount(rootDev, "/mnt/loophost", fstype = "vfat") # loopbackSwapSize = -1 turns on existing swap space rather # then creating a new one if self.loopbackSwapSize > 0: isys.ddfile("/mnt/loophost/rh-swap.img", self.loopbackSwapSize) iutil.execWithRedirect ("/usr/sbin/mkswap", [ "mkswap", '-v1', '/mnt/loophost/rh-swap.img' ], stdout = None, stderr = None) isys.swapon("/mnt/loophost/rh-swap.img") return iutil.mkdirChain('/tmp/swap') for (device, doFormat) in self.swapList(): file = '/tmp/swap/' + device isys.makeDevInode(device, file) if formatSwap: w = self.waitWindow(_("Formatting"), _("Formatting swap space on /dev/%s...") % (device,)) rc = iutil.execWithRedirect ("/usr/sbin/mkswap", [ "mkswap", '-v1', file ], stdout = None, stderr = None, searchPath = 1) w.pop() if rc: self.messageWindow(_("Error"), _("Error creating swap on device ") + device) else: isys.swapon (file) else: try: isys.swapon (file) except: # XXX should we complain? pass def addNewRaidDevice(self, mountPoint, raidDevice, fileSystem, raidLevel, deviceList): self.supplementalRaid.append((mountPoint, raidDevice, fileSystem, raidLevel, deviceList)) def clearExistingRaid(self): self.existingRaid = [] def startExistingRaid(self): for (raidDevice, mntPoint, fileSystem, deviceList) in self.existingRaid: isys.raidstart(raidDevice, deviceList[0]) def stopExistingRaid(self): for (raidDevice, mntPoint, fileSystem, deviceList) in self.existingRaid: isys.raidstop(raidDevice) def addExistingRaidDevice(self, raidDevice, mntPoint, fsystem, deviceList): self.existingRaid.append(raidDevice, mntPoint, fsystem, deviceList) def existingRaidList(self): return self.existingRaid def raidList(self): (devices, raid) = self.ddruid.partitionList() if raid == None: raid = [] for (mountPoint, raidDevice, fileSystem, raidLevel, deviceList) in \ self.supplementalRaid: raid.append(mountPoint, raidDevice, fileSystem, raidLevel, 0, 0, deviceList) return (devices, raid) def createRaidTab(self, file, devPrefix, createDevices = 0): (devices, raid) = self.raidList() if not raid: return deviceDict = {} for (device, name, type, start, size) in devices: deviceDict[name] = device rt = open(file, "w") for (mntpoint, device, fstype, raidType, start, size, makeup) in raid: if createDevices: isys.makeDevInode(device, devPrefix + '/' + device) rt.write("raiddev %s/%s\n" % (devPrefix, device,)) rt.write("raid-level %d\n" % (raidType,)) rt.write("nr-raid-disks %d\n" % (len(makeup),)) rt.write("chunk-size 64k\n") rt.write("persistent-superblock 1\n"); rt.write("#nr-spare-disks 0\n") i = 0 for subDevName in makeup: if createDevices: isys.makeDevInode(deviceDict[subDevName], '%s/%s' % (devPrefix, deviceDict[subDevName])) rt.write(" device %s/%s\n" % (devPrefix, deviceDict[subDevName],)) rt.write(" raid-disk %d\n" % (i,)) i = i + 1 rt.write("\n") rt.close() def umountFilesystems(self, instPath, ignoreErrors = 0): if (not self.setupFilesystems): return isys.umount(instPath + '/proc', removeDir = 0) try: isys.umount(instPath + '/proc/bus/usb', removeDir = 0) log("Umount USB OK") except: log("Umount USB Fail") pass mounts = self.mountList() mounts.reverse() for (n, device, fsystem, doFormat, size) in mounts: if fsystem != "swap": try: mntPoint = instPath + n isys.umount(mntPoint, removeDir = 0) except SystemError, (errno, msg): if not ignoreErrors: self.messageWindow(_("Error"), _("Error unmounting %s: %s") % (device, msg)) if self.rootOnLoop(): isys.makeDevInode("loop1", '/tmp/' + "loop1") isys.unlosetup("/tmp/loop1") self.stopExistingRaid() def readLabels(self, skipList = []): labels = {} for drive in self.driveList(): isys.makeDevInode(drive, '/tmp/' + drive) try: table = _balkan.readTable ('/tmp/' + drive) except SystemError: continue for i in range (len (table)): dev = drive + str (i + 1) try: skipList.index(dev) except ValueError, msg: (type, sector, size) = table[i] # we check the label on all filesystems because mount # does to! label = isys.readExt2Label(dev) if label: labels[dev] = label #print "label for", dev return labels def makeFilesystems(self): # let's make the RAID devices first -- the fstab will then proceed # naturally (devices, raid) = self.raidList() if self.serial: messageFile = "/tmp/mke2fs.log" else: messageFile = "/dev/tty5" if raid: self.createRaidTab("/tmp/raidtab", "/tmp", createDevices = 1) w = self.waitWindow(_("Creating"), _("Creating RAID devices...")) for (mntpoint, device, fsType, raidType, start, size, makeup) in raid: iutil.execWithRedirect ("/usr/sbin/mkraid", [ 'mkraid', '--really-force', '--configfile', '/tmp/raidtab', '/tmp/' + device ], stderr = messageFile, stdout = messageFile) w.pop() # XXX remove extraneous inodes here # print "created raid" self.startExistingRaid() if not self.setupFilesystems: return arch = iutil.getArch () if arch == "alpha": bootPart = self.getBootDevice() labelSkipList = [] labels = {} for (mntpoint, device, fsystem, doFormat, size) in self.mountList(): if doFormat: labelSkipList.append(device) for label in self.readLabels(labelSkipList).values(): labels[label] = 1 for (mntpoint, device, fsystem, doFormat, size) in self.mountList(): if not doFormat: continue # Handle these before we handle the protect list, as the vfat # partition itself could be in the protect list. if fsystem == "vfat" and mntpoint == "/": # do a magical loopback mount -- whee! isys.mount(device, "/mnt/loophost", fstype = "vfat") isys.makeDevInode("loop1", '/tmp/' + "loop1") isys.ddfile("/mnt/loophost/redhat.img", self.loopbackSize, (self.progressWindow, _("Loopback"), _("Creating loopback filesystem on device /dev/%s...") % device)) isys.losetup("/tmp/loop1", "/mnt/loophost/redhat.img") if self.serial: messageFile = "/tmp/mke2fs.log" else: messageFile = "/dev/tty5" ext2FormatFilesystem([ "/usr/sbin/mke2fs", "/tmp/loop1" ], messageFile, self.progressWindow, mntpoint) # don't leave this setup, or we'll get confused later isys.unlosetup("/tmp/loop1") isys.umount("/mnt/loophost") # Next continue if self.protectList: founddev = 0 for i in self.protectList: if i == device: founddev = 1 break; if founddev != 0: # Next continue isys.makeDevInode(device, '/tmp/' + device) if fsystem == "ext2": label = createLabel(labels, mntpoint) args = [ "/usr/sbin/mke2fs", '/tmp/' + device, '-L', label ] # FORCE the partition that MILO has to read # to have 1024 block size. It's the only # thing that our milo seems to read. if arch == "alpha" and device == bootPart: args = args + ["-b", "1024", '-r', '0', '-O', 'none'] # set up raid options for md devices. if device[:2] == 'md': for (rmnt, rdevice, fsType, raidType, start, size, makeup) in raid: if rdevice == device: rtype = raidType rdisks = len (makeup) if rtype == 5: rdisks = rdisks - 1 args = args + [ '-R', 'stride=%d' % (rdisks * 16) ] elif rtype == 0: args = args + [ '-R', 'stride=%d' % (rdisks * 16) ] if self.badBlockCheck: args.append ("-c") fsopts = self.getfsOptions(mntpoint) if fsopts: args.extend(fsopts) ext2FormatFilesystem(args, messageFile, self.progressWindow, mntpoint) elif fsystem == "vfat" and mntpoint == "/boot/efi": args = [ "mkdosfs", '/tmp/' + device ] w = self.waitWindow(_("Formatting"), _("Formatting %s filesystem...") % (mntpoint,)) iutil.execWithRedirect ("/usr/sbin/mkdosfs", args, stdout = messageFile, stderr = messageFile, searchPath = 1) w.pop() else: pass self.stopExistingRaid() def hasDirtyFilesystems(self): if (not self.setupFilesystems): return if self.rootOnLoop(): (rootDev, rootFs) = self.getRootDevice() mountLoopbackRoot(rootDev, skipMount = 1) dirty = isys.ext2IsDirty("loop1") unmountLoopbackRoot(skipMount = 1) if dirty: return 1 for (mntpoint, device, fsystem, doFormat, size) in self.mountList(): if fsystem != "ext2": continue if doFormat: continue if isys.ext2IsDirty(device): return 1 return 0 def mountFilesystems(self, instPath): if (not self.setupFilesystems): return self.startExistingRaid() for (mntpoint, device, fsystem, doFormat, size) in self.mountList(): if fsystem == "swap": continue elif fsystem == "vfat" and mntpoint == "/": isys.mount(device, "/mnt/loophost", fstype = "vfat") isys.makeDevInode("loop1", '/tmp/' + "loop1") isys.losetup("/tmp/loop1", "/mnt/loophost/redhat.img") isys.mount("loop1", instPath) elif fsystem == "ext2" or fsystem == "ext3" or \ (fsystem == "vfat" and mntpoint == "/boot/efi"): try: iutil.mkdirChain(instPath + mntpoint) isys.mount(device, instPath + mntpoint, fstype = fsystem) except SystemError, (errno, msg): self.messageWindow(_("Error"), _("Error mounting device %s as %s: %s\n\n" "This most likely means this partition has " "not been formatted.\n\nPress OK to reboot your " "system.") % (device, mntpoint, msg)) raise SystemError, (errno, msg) try: os.mkdir (instPath + '/proc') except: pass isys.mount('/proc', instPath + '/proc', 'proc') def write(self, prefix): format = "%-23s %-23s %-7s %-15s %d %d\n"; f = open (prefix + "/etc/fstab", "w") labels = self.readLabels() for (mntpoint, dev, fs, reformat, size) in self.mountList(): if mntpoint[:10] == 'DONT ERASE': continue if fs == "vfat" and mntpoint == "/": f.write("# LOOP1: /dev/%s %s /redhat.img\n" % (dev, fs)) dev = "loop1" fs = "ext2" if labels.has_key(dev): devName = "LABEL=" + labels[dev] else: devName = '/dev/' + dev iutil.mkdirChain(prefix + mntpoint) if mntpoint == '/': f.write (format % ( devName, mntpoint, fs, 'defaults', 1, 1)) else: if fs == "ext2": f.write (format % ( devName, mntpoint, fs, 'defaults', 1, 2)) elif fs == "iso9660": f.write (format % ( devName, mntpoint, fs, 'noauto,owner,ro', 0, 0)) elif fs == "auto": f.write (format % ( devName, mntpoint, fs, 'noauto,owner', 0, 0)) else: f.write (format % ( devName, mntpoint, fs, 'defaults', 0, 0)) f.write (format % ("none", "/proc", 'proc', 'defaults', 0, 0)) f.write (format % ("none", "/dev/pts", 'devpts', 'gid=5,mode=620', 0, 0)) if self.loopbackSwapSize: f.write(format % ("/initrd/loopfs/rh-swap.img", 'swap', 'swap', 'defaults', 0, 0)) for (partition, doFormat) in self.swapList(): f.write (format % ("/dev/" + partition, 'swap', 'swap', 'defaults', 0, 0)) f.close () # touch mtab open (prefix + "/etc/mtab", "w+") f.close () self.createRaidTab(prefix + "/etc/raidtab", "/dev") def clearMounts(self): self.extraFilesystems = [] def addMount(self, partition, mount, fsystem, doFormat = 0, size = 0): self.extraFilesystems.append(mount, partition, fsystem, doFormat, size) # XXX code from sparc merge # if fsystem == "swap": # ufs = 0 # try: # isys.makeDevInode(device, '/tmp/' + device) # except: # pass # try: # ufs = isys.checkUFS ('/tmp/' + device) # except: # pass # if not ufs: # location = "swap" # reformat = 1 # self.mounts[location] = (device, fsystem, reformat) def mountList(self, skipExtra = 0): def sortMounts(one, two): mountOne = one[0] mountTwo = two[0] if (mountOne < mountTwo): return -1 elif (mountOne == mountTwo): return 0 return 1 fstab = [] for (partition, mount, fsystem, size) in self.ddruid.getFstab(): if fsystem == "swap": continue if not self.fsCache.has_key((partition, mount)): if mount == '/home' and isValidExt2(partition): self.fsCache[(partition, mount)] = (0, ) else: self.fsCache[(partition, mount)] = (1, ) (doFormat,) = self.fsCache[(partition, mount)] fstab.append((mount, partition, fsystem, doFormat, size )) for (raidDevice, mntPoint, fsType, deviceList) in self.existingRaid: if fsType == "swap": continue fstab.append((mntPoint, raidDevice, fsType, 0, 0 )) # Add raid mounts to mount list (devices, raid) = self.raidList() for (mntpoint, device, fsType, raidType, start, size, makeup) in raid: if fsType == "swap": continue if not self.fsCache.has_key((device, mntpoint)): self.fsCache[(device, mntpoint)] = (1, ) (doFormat,) = self.fsCache[(device, mntpoint)] fstab.append((mntpoint, device, fsType, doFormat, size )) if not skipExtra: for n in self.extraFilesystems: (mntpoint, sevice, fsType, doFormat, size) = n # skip swap if fsType == "swap": continue # skip duplicate entries (happens when ks used with --onpart) foundit = 0 for p in fstab: (mntpoint2, device2, fsType2, doFormat2, size2) = p if mntpoint2 == mntpoint: foundit = 1 break if not foundit: fstab.append(n) fstab.sort(sortMounts) return fstab def setBadBlockCheck(self, state): self.badBlockCheck = state def getBadBlockCheck(self): return self.badBlockCheck def createDruid(self, fstab = [], ignoreBadDrives = 0): tlist = self.driveList() list = [] if self.ignoreRemovable: for dev in tlist: if isys.driveIsRemovable(dev): log("Not in expert mode, ignoring removable device %s", dev) continue list.append(dev) else: list = tlist return self.fsedit(0, list, fstab, self.zeroMbr, self.readOnly, (self.upgrade or ignoreBadDrives), self.expert, self.edd) def getRunDruid(self): return self.shouldRunDruid def setRunDruid(self, state): self.shouldRunDruid = state def __init__(self, fsedit, fserror, setupFilesystems, serial, zeroMbr, readOnly, waitWindow, messageWindow, progressWindow, ignoreRemovable, protected, expert, upgrade): self.fsedit = fsedit self.fserror = fserror self.fsCache = {} self.clearfsOptions() self.protectList = protected self.swapOn = 0 self.supplementalRaid = [] self.setupFilesystems = setupFilesystems self.serial = serial self.zeroMbr = zeroMbr self.readOnly = readOnly self.waitWindow = waitWindow self.messageWindow = messageWindow self.progressWindow = progressWindow self.badBlockCheck = 0 self.ignoreRemovable = ignoreRemovable self.expert = expert self.upgrade = upgrade if iutil.getArch() == "i386": import edd self.edd = edd.detect() else: self.edd = 0 # # extraFilesystems used for upgrades when /etc/fstab is read as # well as for adding fstab entries for removable media # Should NOT be used by kickstart any more # self.extraFilesystems = [] self.existingRaid = [] self.ddruid = self.createDruid() self.loopbackSize = 0 self.loopbackSwapSize = 0 # I intentionally don't initialize this, as all install paths should # initialize this automatically #self.shouldRunDruid = 0 class GuiFstab(Fstab): def accel (self, widget, area): self.accelgroup = self.GtkAccelGroup (_obj = widget.get_data ("accelgroup")) self.toplevel = widget.get_toplevel() self.toplevel.add_accel_group (self.accelgroup) def runDruid(self, callback): self.ddruid.setCallback (callback) bin = self.GtkFrame (None, _obj = self.ddruid.getWindow ()) bin.connect ("draw", self.accel) bin.set_shadow_type (self.SHADOW_NONE) self.ddruid.edit () return bin def runDruidFinished(self): if self.accelgroup: self.toplevel.remove_accel_group (self.accelgroup) self.ddruid.next () self.updateFsCache() # yikes! this needs to be smarter def __init__(self, setupFilesystems, serial, zeroMbr, readOnly, waitWindow, messageWindow, progressWindow, ignoreRemovable, protected, expert, upgrade): from gnomepyfsedit import fsedit from gnomepyfsedit import fserror from gtk import * Fstab.__init__(self, fsedit, fserror, setupFilesystems, serial, zeroMbr, readOnly, waitWindow, messageWindow, progressWindow, ignoreRemovable, protected, expert, upgrade) self.GtkFrame = GtkFrame self.GtkAccelGroup = GtkAccelGroup self.SHADOW_NONE = SHADOW_NONE self.accelgroup = None class NewtFstab(Fstab): def __init__(self, setupFilesystems, serial, zeroMbr, readOnly, waitWindow, messageWindow, progressWindow, ignoreRemovable, protected, expert, upgrade): from newtpyfsedit import fsedit from newtpyfsedit import fserror Fstab.__init__(self, fsedit, fserror, setupFilesystems, serial, zeroMbr, readOnly, waitWindow, messageWindow, progressWindow, ignoreRemovable, protected, expert, upgrade) def readFstab (path, fstab): loopIndex = {} f = open (path, "r") lines = f.readlines () f.close fstab.clearExistingRaid() fstab.clearMounts() labelsByMount = {} labels = fstab.readLabels() for device in labels.keys(): labelsByMount[labels[device]] = device drives = fstab.driveList() raidList = raid.scanForRaid(drives) raidByDev = {} for (mdDev, devList) in raidList: raidByDev[mdDev] = devList for line in lines: fields = string.split (line) if not fields: continue if fields[0] == "#" and len(fields)>4 and fields[1][0:4] == "LOOP": device = string.lower(fields[1]) if device[len(device) - 1] == ":": device = device[0:len(device) - 1] realDevice = fields[2] if realDevice[0:5] == "/dev/": realDevice = realDevice[5:] loopIndex[device] = (realDevice, fields[3]) elif line[0] == "#": # skip comments continue # all valid fstab entries have 6 fields if len (fields) < 4 or len (fields) > 6: continue if fields[2] != "ext2" and fields[2] != "ext3" and fields[2] != "swap": continue if string.find(fields[3], "noauto") != -1: continue if len(fields) >= 6 and fields[0][0:6] == "LABEL=": label = fields[0][6:] device = labelsByMount[label] fsystem = fields[2] fstab.addMount(device, fields[1], fsystem) elif fields[0][0:7] == "/dev/md": fstab.addExistingRaidDevice(fields[0][5:], fields[1], fields[2], raidByDev[int(fields[0][7:])]) elif (fields[0][0:7] == "/dev/hd" or fields[0][0:7] == "/dev/sd" or fields[0][0:9] == "/dev/loop" or fields[0][0:8] == "/dev/rd/" or fields[0][0:9] == "/dev/ida/" or fields[0][0:11] == "/dev/cciss/"): # this skips swap files! todo has to put them back for upgrades device = fields[0][5:] fsystem = fields[2] if loopIndex.has_key(device): (device, fsystem) = loopIndex[device] fstab.addMount(device, fields[1], fsystem) def createLabel(labels, newLabel): if len(newLabel) > 16: newLabel = newLabel[0:16] count = 0 while labels.has_key(newLabel): count = count + 1 s = "%s" % count if (len(newLabel) + len(s)) <= 16: newLabel = newLabel + s else: strip = len(newLabel) + len(s) - 16 newLabel = newLabel[0:len(newLabel) - strip] + s labels[newLabel] = 1 return newLabel def mountLoopbackRoot(device, skipMount = 0): isys.mount(device, '/mnt/loophost', fstype = "vfat") isys.makeDevInode("loop1", '/tmp/' + "loop1") isys.losetup("/tmp/loop1", "/mnt/loophost/redhat.img") if not skipMount: isys.mount("loop1", '/mnt/sysimage') def unmountLoopbackRoot(skipMount = 0): if not skipMount: isys.umount('/mnt/sysimage') isys.makeDevInode("loop1", '/tmp/' + "loop1") isys.unlosetup("/tmp/loop1") isys.umount('/mnt/loophost') def ext2FormatFilesystem(argList, messageFile, windowCreator, mntpoint): w = windowCreator(_("Formatting"), _("Formatting %s filesystem...") % (mntpoint,), 100) fd = os.open(messageFile, os.O_RDWR) p = os.pipe() childpid = os.fork() if (not childpid): os.close(p[0]) os.dup2(p[1], 1) os.dup2(fd, 2) os.close(p[1]) os.close(fd) os.execv(argList[0], argList) log("failed to exec %s", argList) sys.exit(1) os.close(p[1]) # ignoring SIGCHLD would be cleaner then ignoring EINTR, but # we can't use signal() in this thread? s = 'a' while s and s != '\b': try: s = os.read(p[0], 1) except OSError, args: (num, str) = args if (num != 4): raise IOError, args os.write(fd, s) num = '' while s: try: s = os.read(p[0], 1) os.write(fd, s) if s != '\b': try: num = num + s except: pass else: if num: l = string.split(num, '/') w.set((int(l[0]) * 100) / int(l[1])) isys.sync() num = '' except OSError, args: (num, str) = args if (num != 4): raise IOError, args (pid, status) = os.waitpid(childpid, 0) os.close(fd) w.pop()