# # upgrade_text.py: text mode upgrade dialogs # # Copyright 2001 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 upgrade from constants_text import * from snack import * from fsset import * from log import log from flags import flags from translate import _ class UpgradeMigrateFSWindow: def __call__ (self, screen, thefsset): migent = thefsset.getMigratableEntries() g = GridFormHelp(screen, _("Migrate Filesystems"), "upmigfs", 1, 4) text = _("This release of Red Hat Linux supports " "the ext3 journalling filesystem. It has several " "benefits over the ext2 filesystem traditionally shipped " "in Red Hat Linux. It is possible to migrate the ext2 " "formatted partitions to ext3 without data loss.\n\n" "Which of these partitions would you like to migrate?") tb = TextboxReflowed(60, text) g.add(tb, 0, 0, anchorLeft = 1, padding = (0, 0, 0, 1)) partlist = CheckboxTree(height=4, scroll=1) for entry in migent: if entry.fsystem.getName() != entry.origfsystem.getName(): migrating = 1 else: migrating = 0 partlist.append("/dev/%s - %s - %s" % (entry.device.getDevice(), entry.origfsystem.getName(), entry.mountpoint), entry, migrating) g.add(partlist, 0, 1, padding = (0, 0, 0, 1)) buttons = ButtonBar(screen, [TEXT_OK_BUTTON, TEXT_BACK_BUTTON] ) g.add(buttons, 0, 3, anchorLeft = 1, growx = 1) while 1: result = g.run() if (buttons.buttonPressed(result)): result = buttons.buttonPressed(result) if result == TEXT_BACK_CHECK: screen.popWindow() return INSTALL_BACK # reset for entry in migent: entry.setFormat(0) entry.setMigrate(0) entry.fsystem = entry.origfsystem for entry in partlist.getSelection(): entry.setMigrate(1) entry.fsystem = fileSystemTypeGet("ext3") screen.popWindow() return INSTALL_OK class UpgradeSwapWindow: def __call__ (self, screen, intf, fsset, instPath, swapInfo, dispatch): rc = swapInfo (fsList, suggSize, suggMntPoint) = rc ramDetected = iutil.memInstalled(corrected=1)/1024 text = _("The 2.4 kernel needs significantly more swap than older " "kernels, as much as twice as much swap space as RAM on the " "system. You currently have %dMB of swap configured, but " "you may create additional swap space on one of your " "file systems now.") % (iutil.swapAmount() / 1024) tb = TextboxReflowed(60, text) amount = Entry(10, scroll = 0) amount.set(str(suggSize)) l = len(fsList) scroll = 0 if l > 4: l = 4 scroll = 1 listbox = Listbox(l, scroll = scroll) liLabel = Label("%-25s %-15s %8s" % (_("Mount Point"), _("Partition"), _("Free Space"))) count = 0 for (mnt, part, size) in fsList: listbox.append("%-25s /dev/%-10s %6dMB" % (mnt, part, size), count) if (mnt == suggMntPoint): listbox.setCurrent(count) count = count + 1 buttons = ButtonBar(screen, [TEXT_OK_BUTTON, (_("Skip"), "skip"), TEXT_BACK_BUTTON] ) amGrid = Grid(2, 3) amGrid.setField(Label(_("RAM detected (MB):")), 0, 0, anchorLeft = 1, padding = (0, 0, 1, 0)) amGrid.setField(Label(str(ramDetected)), 1, 0, anchorLeft = 1) amGrid.setField(Label(_("Suggested size (MB):")), 0, 1, anchorLeft = 1, padding = (0, 0, 1, 0)) amGrid.setField(Label(str(suggSize)), 1, 1, anchorLeft = 1) amGrid.setField(Label(_("Swap file size (MB):")), 0, 2, anchorLeft = 1, padding = (0, 0, 1, 0)) amGrid.setField(amount, 1, 2) liGrid = Grid(1, 2) liGrid.setField(liLabel, 0, 0) liGrid.setField(listbox, 0, 1) g = GridFormHelp(screen, _("Add Swap"), "upgradeswap", 1, 4) g.add(tb, 0, 0, anchorLeft = 1, padding = (0, 0, 0, 1)) g.add(amGrid, 0, 1, padding = (0, 0, 0, 1)) g.add(liGrid, 0, 2, padding = (0, 0, 0, 1)) g.add(buttons, 0, 3, anchorLeft = 1, growx = 1) while 1: result = g.run() if (buttons.buttonPressed(result)): result = buttons.buttonPressed(result) if result == TEXT_BACK_CHECK: screen.popWindow() return INSTALL_BACK elif result == "skip": screen.popWindow() return INSTALL_OK val = amount.value() try: val = int(val) except ValueError: intf.messageWindow(_("Error"), _("The value you entered is not a " "valid number.")) if type(val) == type(1): (mnt, part, size) = fsList[listbox.current()] if size < (val + 16): intf.messageWindow(_("Error"), _("There is not enough space on the " "device you selected for the swap " "partition.")) elif val > 2000 or val < 1: intf.messageWindow(_("Warning"), _("The swap file must be between 1 " "and 2000 MB in size.")) else: screen.popWindow() if flags.setupFilesystems: upgrade.createSwapFile(instPath, fsset, mnt, val) dispatch.skipStep("addswap", 1) return INSTALL_OK raise ValueError class UpgradeExamineWindow: def __call__ (self, screen, dispatch, intf, id, chroot): self.parts = upgrade.findExistingRoots(intf, id, chroot) parts = id.upgradeRoot if not parts: ButtonChoiceWindow(screen, _("Error"), _("You don't have any Linux partitions. You " "can't upgrade this system!"), [ TEXT_BACK_BUTTON ], width = 50) return INSTALL_BACK if len (parts) > 1: height = min (len (parts), 12) if height == 12: scroll = 1 else: scroll = 0 partList = [] for (drive, fs) in parts: partList.append(drive) (button, choice) = \ ListboxChoiceWindow(screen, _("System to Upgrade"), _("What partition holds the root partition " "of your installation?"), partList, [ TEXT_OK_BUTTON, TEXT_BACK_BUTTON ], width = 30, scroll = scroll, height = height, help = "multipleroot") if button == TEXT_BACK_CHECK: return INSTALL_BACK else: root = parts[choice] else: root = parts[0] (drive, fs) = root rc = ButtonChoiceWindow (screen, _("Upgrade Partition"), _("Upgrading the Red Hat Linux " "installation on partition " "/dev/%s") % (drive,), buttons = [ TEXT_OK_BUTTON, TEXT_BACK_BUTTON ]) if rc == TEXT_BACK_CHECK: return INSTALL_BACK id.upgradeRoot = [root] # if root is on vfat we want to always display boot floppy screen # otherwise they can't boot! # This check is required for upgradeonly installclass to work so # we only show boot floppy screen in partitonless install case # XXX WRONG PLACE TO DO THIS #if root[1] == "vfat": # todo.instClass.removeFromSkipList("bootdisk") return INSTALL_OK class CustomizeUpgradeWindow: def __call__ (self, screen, dispatch, intf, id, chroot): rc = ButtonChoiceWindow (screen, _("Customize Packages to Upgrade"), _("The packages you have installed, " "and any other packages which are " "needed to satisfy their " "dependencies, have been selected " "for installation. Would you like " "to customize the set of packages " "that will be upgraded?"), buttons = [ _("Yes"), _("No"), TEXT_BACK_BUTTON], help = "custupgrade") if rc == TEXT_BACK_CHECK: return INSTALL_BACK if rc == string.lower (_("No")): dispatch.skipStep("indivpackage") else: dispatch.skipStep("indivpackage", skip = 0) return INSTALL_OK