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from snack import *
import sys
import isys
import os
import rpm
import time
import gettext
import glob
from newtpyfsedit import fsedit        

INSTALL_OK = 0
INSTALL_BACK = -1
INSTALL_NOOP = -2

cat = gettext.Catalog ("anaconda-text", "/usr/share/locale")
_ = cat.gettext

class LanguageWindow:
    def __call__(self, screen, todo):
        languages = todo.language.available ()
        descriptions = languages.keys ()
        locales = languages.values ()
        default = locales.index (todo.language.get ())

        (button, choice) = \
            ListboxChoiceWindow(screen, _("Language Selection"),
                                _("What language would you like to use during the "
                                  "installation process?"), descriptions, 
                                buttons = [_("OK")], width = 30, default = default)
        langs = gettext.getlangs ()
        langs = [languages [languages.keys()[choice]]] + langs
        gettext.setlangs (langs)
        global cat, _
        cat = gettext.Catalog ("anaconda-text", "/usr/share/locale")
        _ = cat.gettext
        todo.language.set (languages.keys()[choice])
        return INSTALL_OK

class KeyboardWindow:
    def __call__(self, screen, todo):
        keyboards = todo.keyboard.available ()
        keyboards.sort ()
        default = keyboards.index (todo.keyboard.get ())

        (button, choice) = \
            ListboxChoiceWindow(screen, _("Keyboard Selection"),
                                _("Which model keyboard is attached to this computer?"), keyboards, 
                                buttons = [_("OK"), _("Back")], width = 30, scroll = 1, height = 8,
                                default = default)
        
        if button == string.lower (_("Back")):
            return INSTALL_BACK
        todo.keyboard.set (keyboards[choice])
        return INSTALL_OK
    
class InstallPathWindow:
    def __call__ (self, screen, todo, intf):
        rc = ButtonChoiceWindow(screen, _("Installation Path"),
                                _("Would you like to install a new system "
                                  "or upgrade a system which already contains "
                                  "Red Hat Linux 2.0 or later?"),
                                buttons = [_("Install"), _("Upgrade"), _("Back")], width = 35)

        if rc == string.lower(_("Back")):
            return INSTALL_BACK
        if rc == string.lower(_("Upgrade")):
            intf.steps = intf.commonSteps + intf.upgradeSteps
            todo.upgrade = 1
        else:
            intf.steps = intf.commonSteps + intf.installSteps
            todo.upgrade = 0
        return INSTALL_OK

class UpgradeExamineWindow:
    def __call__ (self, screen, todo):
        parts = todo.upgradeFindRoot ()

        if not parts:
            ButtonChoiceWindow(screen, _("Error"),
                               _("You don't have any Linux partitions. You "
                                 "can't upgrade this system!"),
                               [ _("Back") ], width = 50)
            return INSTALL_BACK
        
        if len (parts) > 1:
            height = min (len (parts), 12)
            if height == 12:
                scroll = 1
            else:
                scroll = 0

            (button, choice) = \
                ListboxChoiceWindow(screen, _("System to Upgrade"),
                                    _("What partition holds the root partition "
                                      "of your installation?"), parts, 
                                    [ _("OK"), _("Back") ], width = 30,
                                    scroll = scroll, height = height)
            if button == string.lower (_("Back")):
                return INSTALL_BACK
            else:
                root = parts[choice]
        else:
            root = parts[0]

        todo.upgradeFindPackages (root)

class CustomizeUpgradeWindow:
    def __call__ (self, screen, todo, indiv):
        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"), _("Back") ])

        if rc == string.lower (_("Back")):
            return INSTALL_BACK

        if rc == string.lower (_("No")):
            indiv.set (0)
        else:
            indiv.set (1)

        return INSTALL_OK

        
class RootPasswordWindow:
    def __call__ (self, screen, todo):
        toplevel = GridForm (screen, _("Root Password"), 1, 3)

        toplevel.add (TextboxReflowed(37, _("Pick a root password. You must "
                                            "type it twice to ensure you know "
                                            "what it is and didn't make a mistake "
                                            "in typing. Remember that the "
                                            "root password is a critical part "
                                            "of system security!")), 0, 0, (0, 0, 0, 1))
        entry1 = Entry (24, hidden = 1)
        entry2 = Entry (24, hidden = 1)
        passgrid = Grid (2, 2)
        passgrid.setField (Label (_("Password:")), 0, 0, (0, 0, 1, 0), anchorLeft = 1)
        passgrid.setField (Label (_("Password (again):")), 0, 1, (0, 0, 1, 0), anchorLeft = 1)
        passgrid.setField (entry1, 1, 0)
        passgrid.setField (entry2, 1, 1)
        toplevel.add (passgrid, 0, 1, (0, 0, 0, 1))
        
        bb = ButtonBar (screen, ((_("OK"), "ok"), (_("Back"), "back")))
        toplevel.add (bb, 0, 2, growx = 1)

        while 1:
            entry1.set ("")
            entry2.set ("")
            toplevel.setCurrent (entry1)
            result = toplevel.run ()
            rc = bb.buttonPressed (result)
            if rc == "back":
                screen.popWindow()
                return INSTALL_BACK
            if len (entry1.value ()) < 6:
                ButtonChoiceWindow(screen, _("Password Length"),
                                   _("The root password must be at least 6 characters "
                                     "long."),
                                   buttons = [ _("OK") ], width = 50)
            elif entry1.value () != entry2.value ():
                ButtonChoiceWindow(screen, _("Password Mismatch"),
                                   _("The passwords you entered were different. Please "
                                     "try again."),
                                   buttons = [ _("OK") ], width = 50)
            else:
                break
        screen.popWindow()
        todo.rootpassword.set (entry1.value ())
        return INSTALL_OK

class WelcomeWindow:
    def __call__(self, screen):
        rc = ButtonChoiceWindow(screen, _("Red Hat Linux"), 
                                _("Welcome to Red Hat Linux!\n\n"
                                  "This installation process is outlined in detail in the "
                                  "Official Red Hat Linux Installation Guide available from "
                                  "Red Hat Software. If you have access to this manual, you "
                                  "should read the installation section before continuing.\n\n"
                                  "If you have purchased Official Red Hat Linux, be sure to "
                                  "register your purchase through our web site, "
                                  "http://www.redhat.com/."),
                                buttons = [_("OK"), _("Back")], width = 50)

	if rc == string.lower(_("Back")):
	    return INSTALL_BACK

        return INSTALL_OK

class AuthConfigWindow:
    def __call__(self, screen, todo):
        def setsensitive (self):
            server = FLAGS_RESET
            flag = FLAGS_RESET
            if self.broadcast.selected ():
                server = FLAGS_SET
            if not self.nis.selected ():
                flag = FLAGS_SET
                server = FLAGS_SET
            
            self.domain.setFlags (FLAG_DISABLED, flag)
            self.broadcast.setFlags (FLAG_DISABLED, flag)
            self.server.setFlags (FLAG_DISABLED, server)
        
        bb = ButtonBar (screen, ((_("OK"), "ok"), (_("Back"), "back")))

        toplevel = GridForm (screen, _("Authentication Configuration"), 1, 5)
        self.shadow = Checkbox (_("Use Shadow Passwords"), todo.auth.useShadow)
        toplevel.add (self.shadow, 0, 0, (0, 0, 0, 1), anchorLeft = 1)
        self.md5 = Checkbox (_("Enable MD5 Passwords"), todo.auth.useMD5)
        toplevel.add (self.md5, 0, 1, (0, 0, 0, 1), anchorLeft = 1)
        self.nis = Checkbox (_("Enable NIS"), todo.auth.useNIS)
        toplevel.add (self.nis, 0, 2, anchorLeft = 1)

        subgrid = Grid (2, 3)

        subgrid.setField (Label (_("NIS Domain:")),
                          0, 0, (0, 0, 1, 0), anchorRight = 1)
        subgrid.setField (Label (_("NIS Server:")),
                          0, 1, (0, 0, 1, 0), anchorRight = 1)
        subgrid.setField (Label (_("or use:")),
                          0, 2, (0, 0, 1, 0), anchorRight = 1)

        text = _("Request server via broadcast")
        self.domain = Entry (len (text) + 4)
        self.domain.set (todo.auth.domain)
        self.broadcast = Checkbox (text, todo.auth.useBroadcast)
        self.server = Entry (len (text) + 4)
        self.server.set (todo.auth.server)
        subgrid.setField (self.domain, 1, 0, anchorLeft = 1)
        subgrid.setField (self.broadcast, 1, 1, anchorLeft = 1)
        subgrid.setField (self.server, 1, 2, anchorLeft = 1)
        toplevel.add (subgrid, 0, 3, (2, 0, 0, 1))
        toplevel.add (bb, 0, 4, growx = 1)

        self.nis.setCallback (setsensitive, self)
        self.broadcast.setCallback (setsensitive, self)

        setsensitive (self)

        result = toplevel.runOnce ()

        todo.auth.useMD5 = self.md5.value ()
        todo.auth.shadow = self.shadow.value ()
        todo.auth.useNIS = self.nis.selected ()
        todo.auth.domain = self.domain.value ()
        todo.auth.useBroadcast = self.broadcast.selected ()
        todo.auth.server = self.server.value ()
                
        rc = bb.buttonPressed (result)

        if rc == "back":
            return INSTALL_BACK
        return INSTALL_OK

class NetworkWindow:
    def __call__(self, screen, todo):
        def setsensitive (self):
            if self.cb.selected ():
                sense = FLAGS_SET
            else:
                sense = FLAGS_RESET
            
            for n in self.ip, self.nm, self.gw, self.ns:
                n.setFlags (FLAG_DISABLED, sense)

        def calcNM (self):
            ip = self.ip.value ()
            if ip and not self.nm.value ():
                try:
                    mask = isys.inet_calcNetmask (ip)
                except ValueError:
                    return

                self.nm.set (mask)

        def calcGW (self):
            ip = self.ip.value ()
            nm = self.nm.value ()
            if ip and nm:
                try:
                    (net, bcast) = isys.inet_calcNetBroad (ip, nm)
                except ValueError:
                    return

                if not self.gw.value ():
                    gw = isys.inet_calcGateway (bcast)
                    self.gw.set (gw)
                if not self.ns.value ():
                    ns = isys.inet_calcNS (net)
                    self.ns.set (ns)

        devices = todo.network.available ()
        if devices.items () == 0:
            return INSTALL_NOOP
        dev = devices[devices.keys ()[0]]

        firstg = Grid (1, 1)
        boot = dev.get ("bootproto")
        
        if not boot:
            boot = "dhcp"
        self.cb = Checkbox (_("Use bootp/dhcp"),
                            isOn = (boot == "dhcp"))
        firstg.setField (self.cb, 0, 0, anchorLeft = 1)

        secondg = Grid (2, 4)
        secondg.setField (Label (_("IP address:")), 0, 0, anchorLeft = 1)
	secondg.setField (Label (_("Netmask:")), 0, 1, anchorLeft = 1)
	secondg.setField (Label (_("Default gateway (IP):")), 0, 2, anchorLeft = 1)
        secondg.setField (Label (_("Primary nameserver:")), 0, 3, anchorLeft = 1)

        self.ip = Entry (16)
        self.ip.set (dev.get ("ipaddr"))
        self.nm = Entry (16)
        self.nm.set (dev.get ("netmask"))
        self.gw = Entry (16)
        self.gw.set (todo.network.gateway)
        self.ns = Entry (16)
        self.ns.set (todo.network.primaryNS)

        self.cb.setCallback (setsensitive, self)
        self.ip.setCallback (calcNM, self)
        self.nm.setCallback (calcGW, self)

        secondg.setField (self.ip, 1, 0, (1, 0, 0, 0))
	secondg.setField (self.nm, 1, 1, (1, 0, 0, 0))
	secondg.setField (self.gw, 1, 2, (1, 0, 0, 0))
        secondg.setField (self.ns, 1, 3, (1, 0, 0, 0))

        bb = ButtonBar (screen, ((_("OK"), "ok"), (_("Back"), "back")))

        toplevel = GridForm (screen, _("Network Configuration"), 1, 3)
        toplevel.add (firstg, 0, 0, (0, 0, 0, 1), anchorLeft = 1)
        toplevel.add (secondg, 0, 1, (0, 0, 0, 1))
        toplevel.add (bb, 0, 2, growx = 1)

        setsensitive (self)

        while 1:
            result = toplevel.run ()
            if self.cb.selected ():
                dev.set (("bootproto", "dhcp"))
                dev.unset ("ipaddr", "netmask", "network", "broadcast")
            else:
                try:
                    (network, broadcast) = isys.inet_calcNetBroad (self.ip.value (), self.nm.value ())
                except:
                    ButtonChoiceWindow(screen, _("Invalid information"),
                                       _("You must enter valid IP information to continue"),
                                       buttons = [ _("OK") ])
                    continue

                dev.set (("bootproto", "static"))
                dev.set (("ipaddr", self.ip.value ()), ("netmask", self.nm.value ()),
                         ("network", network), ("broadcast", broadcast))
                todo.network.gateway = self.gw.value ()
                todo.network.primaryNS = self.ns.value ()
                todo.network.guessHostnames ()
            screen.popWindow()
            break
                     
        dev.set (("onboot", "yes"))

        rc = bb.buttonPressed (result)

        todo.log ("\"" + dev.get ("device") + "\"")

        if rc == "back":
            return INSTALL_BACK
        return INSTALL_OK

class PartitionWindow:
    def __call__(self, screen, todo):
	if (not todo.setupFilesystems): return INSTALL_NOOP

        fstab = []
        for (mntpoint, (dev, fstype, reformat)) in todo.mounts.items ():
            fstab.append ((dev, mntpoint))

        if not todo.ddruid:
            print todo.drives.available ().keys ()
            todo.ddruid = fsedit(0, todo.drives.available ().keys (), fstab)
        dir = todo.ddruid.edit ()
        for (partition, mount, fstype, size) in todo.ddruid.getFstab ():
            todo.addMount(partition, mount, fstype)
                
        return dir


class FormatWindow:
    def __call__(self, screen, todo):
	if (not todo.setupFilesystems): return INSTALL_NOOP

        tb = TextboxReflowed (55,
                              _("What partitions would you like to "
                                "format? We strongly suggest formatting "
                                "all of the system partitions, including "
                                "/, /usr, and /var. There is no need to "
                                "format /home or /usr/local if they have "
                                "already been configured during a "
                                "previous install."))

        height = min (screen.height - 12, len (todo.mounts.items()))
        
        ct = CheckboxTree(height = height)

        mounts = todo.mounts.keys ()
        mounts.sort ()

        for mount in mounts:
            (dev, fstype, format) = todo.mounts[mount]
            if fstype == "ext2":
                ct.append("/dev/%s   %s" % (dev, mount), mount, format)

        cb = Checkbox (_("Check for bad blocks during format"))

        bb = ButtonBar (screen, ((_("OK"), "ok"), (_("Back"), "back")))

        g = GridForm (screen, _("Choose Partitions to Format"), 1, 4)
        g.add (tb, 0, 0, (0, 0, 0, 1))
        g.add (ct, 0, 1)
        g.add (cb, 0, 2, (0, 0, 0, 1))
        g.add (bb, 0, 3, growx = 1)

        result = g.runOnce()

        for mount in todo.mounts.keys ():
            (dev, fstype, format) = todo.mounts[mount]
            if fstype == "ext2":
                todo.mounts[mount] = (dev, fstype, 0)

        for mount in ct.getSelection():
            (dev, fstype, format) = todo.mounts[mount]
            todo.mounts[mount] = (dev, fstype, 1)

        rc = bb.buttonPressed (result)

        if rc == "back":
            return INSTALL_BACK
        return INSTALL_OK

class PackageGroupWindow:
    def __call__(self, screen, todo, individual):
        # be sure that the headers and comps files have been read.
	todo.getHeaderList()
        todo.getCompsList()

        ct = CheckboxTree(height = 10, scroll = 1)
        for comp in todo.comps:
            if not comp.hidden:
                ct.append(comp.name, comp, comp.selected)

        cb = Checkbox (_("Select individual packages"), individual.get ())

        bb = ButtonBar (screen, ((_("OK"), "ok"), (_("Back"), "back")))

        g = GridForm (screen, _("Package Group Selection"), 1, 3)
        g.add (ct, 0, 0, (0, 0, 0, 1))
        g.add (cb, 0, 1, (0, 0, 0, 1))
        g.add (bb, 0, 2, growx = 1)

        result = g.runOnce()

        individual.set (cb.selected())
        # turn off all the comps
        for comp in todo.comps:
            if not comp.hidden: comp.unselect(0)

        # turn on all the comps we selected
        for comp in ct.getSelection():
            comp.select (1)

        rc = bb.buttonPressed (result)

        if rc == "back":
            return INSTALL_BACK
        return INSTALL_OK

class IndividualPackageWindow:
    def __call__(self, screen, todo, individual):
        if not individual.get():
            return
	todo.getHeaderList()
        todo.getCompsList()

        ct = CheckboxTree(height = 10, scroll = 1)
        groups = {}

        # go through all the headers and grok out the group names, placing
        # packages in lists in the groups dictionary.
        
        for key in todo.hdList.packages.keys():
            header = todo.hdList.packages[key]
            # don't show this package if it is in the base group
            if not todo.comps["Base"].items.has_key (header):
                if not groups.has_key (header[rpm.RPMTAG_GROUP]):
                    groups[header[rpm.RPMTAG_GROUP]] = []
                groups[header[rpm.RPMTAG_GROUP]].append (header)

        # now insert the groups into the list, then each group's packages
        # after sorting the list
        def cmpHdrName(first, second):
            if first[rpm.RPMTAG_NAME] < second[rpm.RPMTAG_NAME]:
                return -1
            elif first[rpm.RPMTAG_NAME] == second[rpm.RPMTAG_NAME]:
                return 0
            return 1
        
        keys = groups.keys ()
        keys.sort ()
        index = 0
        for key in keys:
            groups[key].sort (cmpHdrName)
            ct.append (key)
            for header in groups[key]:
                ct.addItem (header[rpm.RPMTAG_NAME], (index, snackArgs["append"]),
                            header, header.selected)
            index = index + 1
                
        bb = ButtonBar (screen, ((_("OK"), "ok"), (_("Back"), "back")))

        g = GridForm (screen, _("Package Group Selection"), 1, 2)
        g.add (ct, 0, 0, (0, 0, 0, 1))
        g.add (bb, 0, 1, growx = 1)

        result = g.runOnce ()
 
        # turn off all the packages
        for key in todo.hdList.packages.keys ():
            todo.hdList.packages[key].selected = 0

        # turn on all the packages we selected
        for package in ct.getSelection ():
            package.selected = 1

        rc = bb.buttonPressed (result)
        
        if rc == "back":
            return INSTALL_BACK

        return INSTALL_OK

class PackageDepWindow:
    def __call__(self, screen, todo):
        deps = todo.verifyDeps ()
        if not deps:
            return INSTALL_NOOP

        g = GridForm(screen, _("Package Dependencies"), 1, 5)
        g.add (TextboxReflowed (45, _("Some of the packages you have "
                                      "selected to install require "
                                      "packages you have not selected. If "
                                      "you just select Ok all of those "
                                      "required packages will be "
                                      "installed.")), 0, 0, (0, 0, 0, 1))
        g.add (Label ("%-20s %-20s" % (_("Package"), _("Requirement"))), 0, 1, anchorLeft = 1)
        text = ""
        for (name, suggest) in deps:
            text = text + "%-20s %-20s\n" % (name, suggest)
        
        if len (deps) > 5:
            scroll = 1
        else:
            scroll = 0
            
        g.add (Textbox (45, 5, text, scroll = scroll), 0, 2, anchorLeft = 1)
        
        cb = Checkbox (_("Install packages to satisfy dependencies"), 1)
        g.add (cb, 0, 3, (0, 1, 0, 1), growx = 1)
        
        bb = ButtonBar (screen, ((_("OK"), "ok"), (_("Back"), "back")))
        g.add (bb, 0, 4, growx = 1)

        result = g.runOnce ()

        if cb.selected ():
            todo.selectDeps (deps)
        
        rc = bb.buttonPressed (result)
        if rc == string.lower (_("Back")):
            return INSTALL_BACK
        return INSTALL_OK

class MouseWindow:
    def __call__(self, screen, todo):
        mice = todo.mouse.available ().keys ()
        mice.sort ()
        default = mice.index (todo.mouse.get ())

        (button, choice) = \
            ListboxChoiceWindow(screen, _("Mouse Selection"),
                                _("Which model mouse is attached to this computer?"), mice, 
                                buttons = [_("OK"), _("Back")], width = 30, scroll = 1, height = 8,
                                default = default)
        
        if button == string.lower (_("Back")):
            return INSTALL_BACK
        todo.mouse.set (mice[choice])
        return INSTALL_OK

class BootDiskWindow:
    def __call__(self, screen, todo):
        rc = ButtonChoiceWindow(screen, _("Bootdisk"), 
                                _("A custom bootdisk provides a way of booting into your "
                                  "Linux system without depending on the normal bootloader. "
                                  "This is useful if you don't want to install lilo on your "
                                  "system, another operating system removes lilo, or lilo "
                                  "doesn't work with your hardware configuration. A custom "
                                  "bootdisk can also be used with the Red Hat rescue image, "
                                  "making it much easier to recover from severe system "
                                  "failures.\n\n"
                                  "Would you like to create a bootdisk for your system?"),
                                buttons = [ _("Yes"), _("No"), _("Back") ])
                                

        if rc == string.lower (_("Yes")):
            todo.bootdisk = 1
        
        if rc == string.lower (_("No")):
            todo.bootdisk = 0

        if rc == string.lower (_("Back")):
            return INSTALL_BACK
        return INSTALL_OK

class LiloWindow:
    def __call__(self, screen, todo):
        if '/' not in todo.mounts.keys (): return INSTALL_NOOP

        if todo.mounts.has_key ('/boot'):
            bootpart = todo.mounts['/boot'][0]
        else:
            bootpart = todo.mounts['/'][0]
        i = len (bootpart) - 1
        while i < 0 and bootpart[i] in digits:
            i = i - 1
        boothd = bootpart[0:i]
            
        format = "/dev/%-11s %s" 
        locations = []
        locations.append (format % (boothd, "Master Boot Record (MBR)"))
        locations.append (format % (bootpart, "First sector of boot partition"))

        # XXX fixme restore state
        (rc, sel) = ListboxChoiceWindow (screen, _("LILO Configuration"),
                                         _("Where do you want to install the bootloader?"),
                                         locations,
                                         buttons = [ _("OK"), _("Back") ])

        if sel == 0:
            todo.setLiloLocation(boothd)
        else:
            todo.setLiloLocation(bootpart)

        if rc == string.lower (_("Back")):
            return INSTALL_BACK
        return INSTALL_OK

class BeginInstallWindow:
    def __call__ (self, screen, todo):
        rc = ButtonChoiceWindow (screen, _("Installation to begin"),
                                _("A complete log of your installation will be in "
                                  "/tmp/install.log after rebooting your system. You "
                                  "may want to keep this file for later reference."),
                                buttons = [ _("OK"), _("Back") ])
        if rc == string.lower (_("Back")):
            return INSTALL_BACK
        return INSTALL_OK

class InstallWindow:
    def __call__ (self, screen, todo):
        todo.doInstall ()
        return INSTALL_OK

class FinishedWindow:
    def __call__ (self, screen):
        rc = ButtonChoiceWindow (screen, _("Complete"), 
                                 _("Congratulations, installation is complete.\n\n"
                                   "Remove the boot media and "
                                   "press return to reboot. For information on fixes which are "
                                   "available for this release of Red Hat Linux, consult the "
                                   "Errata available from http://www.redhat.com.\n\n"
                                   "Information on configuring your system is available in the post "
                                   "install chapter of the Official Red Hat Linux User's Guide."),
                                 [ _("OK") ])
        return INSTALL_OK

class BootdiskWindow:
    def __call__ (self, screen, todo):
        if not todo.bootdisk:
            return INSTALL_NOOP

        rc = ButtonChoiceWindow (screen, _("Bootdisk"),
                                 _("Insert a blank floppy in the first floppy drive. "
                                   "All data on this disk will be erased during creation "
                                   "of the boot disk."),
                                 [ _("OK"), _("Skip") ])                
        if rc == string.lower (_("Skip")):
            return INSTALL_OK
            
        while 1:
            try:
                todo.makeBootdisk ()
            except:
                rc = ButtonChoiceWindow (screen, _("Error"),
                                    _("An error occured while making the boot disk. "
                                      "Please make sure that there is a formatted floppy "
                                      "in the first floppy drive."),
                                      [ _("OK"), _("Skip")] )
                if rc == string.lower (_("Skip")):
                    break
                continue
            else:
                break
            
        return INSTALL_OK

class InstallProgressWindow:
    def completePackage(self, header):
        def formatTime(amt):
            hours = amt / 60 / 60
            amt = amt % (60 * 60)
            min = amt / 60
            amt = amt % 60
            secs = amt

            return "%01d:%02d.%02d" % (int(hours) ,int(min), int(secs))

       	self.numComplete = self.numComplete + 1
	self.sizeComplete = self.sizeComplete + header[rpm.RPMTAG_SIZE]
	self.numCompleteW.setText("%12d" % self.numComplete)
	self.sizeCompleteW.setText("%10dM" % (self.sizeComplete / (1024 * 1024)))
	self.numRemainingW.setText("%12d" % (self.numTotal - self.numComplete))
	self.sizeRemainingW.setText("%10dM" % ((self.sizeTotal - self.sizeComplete) / (1024 * 1024)))
	self.total.set(self.sizeComplete)

	elapsedTime = time.time() - self.timeStarted 
	self.timeCompleteW.setText("%12s" % formatTime(elapsedTime))
	finishTime = (float (self.sizeTotal) / self.sizeComplete) * elapsedTime;
	self.timeTotalW.setText("%12s" % formatTime(finishTime))
	remainingTime = finishTime - elapsedTime;
	self.timeRemainingW.setText("%12s" % formatTime(remainingTime))

	self.g.draw()
	self.screen.refresh()

    def setPackageScale(self, amount, total):
	self.s.set(int(((amount * 1.0)/ total) * 100))
	self.g.draw()
	self.screen.refresh()

    def setPackage(self, header):
	self.name.setText("%s-%s-%s" % (header[rpm.RPMTAG_NAME],
                                        header[rpm.RPMTAG_VERSION],
                                        header[rpm.RPMTAG_RELEASE]))
	self.size.setText("%dk" % (header[rpm.RPMTAG_SIZE] / 1024))
	summary = header[rpm.RPMTAG_SUMMARY]
	if (summary != None):
	    self.summ.setText(summary)
	else:
            self.summ.setText("(none)")

	self.g.draw()
	self.screen.refresh()

    def __init__(self, screen, total, totalSize):
	self.screen = screen
        toplevel = GridForm(self.screen, _("Package Installation"), 1, 5)
        
        name = _("Name   : ")
        size = _("Size   : ")
        sum =  _("Summary: ")
        
        width = 40 + max (len (name), len (size), len (sum))
	self.name = Label(" " * 40)
	self.size = Label(" ")
	detail = Grid(2, 2)
	detail.setField(Label(name), 0, 0, anchorLeft = 1)
	detail.setField(Label(size), 0, 1, anchorLeft = 1)
	detail.setField(self.name, 1, 0, anchorLeft = 1)
	detail.setField(self.size, 1, 1, anchorLeft = 1)
	toplevel.add(detail, 0, 0)

	summary = Grid(2, 1)
	summlabel = Label(sum)
	self.summ = Textbox(40, 2, "", wrap = 1)
	summary.setField(summlabel, 0, 0)
	summary.setField(self.summ, 1, 0)
	toplevel.add(summary, 0, 1)

	self.s = Scale (width, 100)
	toplevel.add (self.s, 0, 2, (0, 1, 0, 1))

	overall = Grid(4, 4)
	# don't ask me why, but if this spacer isn"t here then the 
        # grid code gets unhappy
	overall.setField (Label (" "), 0, 0, anchorLeft = 1)
	overall.setField (Label (_("    Packages")), 1, 0, anchorLeft = 1)
	overall.setField (Label (_("       Bytes")), 2, 0, anchorLeft = 1)
	overall.setField (Label (_("        Time")), 3, 0, anchorLeft = 1)

	overall.setField (Label (_("Total    :")), 0, 1, anchorLeft = 1)
	overall.setField (Label ("%12d" % total), 1, 1, anchorLeft = 1)
	overall.setField (Label ("%10dM" % (totalSize / (1024 * 1024))),
                          2, 1, anchorLeft = 1)
	self.timeTotalW = Label("")
	overall.setField(self.timeTotalW, 3, 1, anchorLeft = 1)

	overall.setField (Label (_("Completed:   ")), 0, 2, anchorLeft = 1)
	self.numComplete = 0
	self.numCompleteW = Label("%12d" % self.numComplete)
	overall.setField(self.numCompleteW, 1, 2, anchorLeft = 1)
	self.sizeComplete = 0
        self.sizeCompleteW = Label("%10dM" % (self.sizeComplete / (1024 * 1024)))
	overall.setField(self.sizeCompleteW, 2, 2, anchorLeft = 1)
	self.timeCompleteW = Label("")
	overall.setField(self.timeCompleteW, 3, 2, anchorLeft = 1)

	overall.setField (Label (_("Remaining:  ")), 0, 3, anchorLeft = 1)
	self.numRemainingW = Label("%12d" % total)
        self.sizeRemainingW = Label("%10dM" % (totalSize / (1024 * 1024)))
	overall.setField(self.numRemainingW, 1, 3, anchorLeft = 1)
	overall.setField(self.sizeRemainingW, 2, 3, anchorLeft = 1)
	self.timeRemainingW = Label("")
	overall.setField(self.timeRemainingW, 3, 3, anchorLeft = 1)

	toplevel.add(overall, 0, 3)

	self.numTotal = total
	self.sizeTotal = totalSize
	self.total = Scale (width, totalSize)
	toplevel.add(self.total, 0, 4, (0, 1, 0, 0))

	self.timeStarted = time.time()	
	
	toplevel.draw()
	self.g = toplevel
	screen.refresh()

    def __del__ (self):
        self.screen.popWindow ()

class WaitWindow:

    def pop(self):
	self.screen.popWindow()
	self.screen.refresh()

    def __init__(self, screen, title, text):
	self.screen = screen
	width = 40
	if (len(text) < width): width = len(text)

	t = TextboxReflowed(width, text)

	g = GridForm(self.screen, title, 1, 1)
	g.add(t, 0, 0)
	g.draw()
	self.screen.refresh()


class Flag:
    """a quick mutable boolean class"""
    def __init__(self, value = 0):
        self.flag = value

    def set(self, value):
        self.flag = value;

    def get(self):
        return self.flag

class InstallInterface:
    def messageWindow(self, title, text):
        self.screen.drawRootText(0 - len(title), 0, title)
	ButtonChoiceWindow(self.screen, title, text,
                           buttons = [ _("OK") ])
        self.screen.drawRootText(0 - len(title), 0,
                                 (self.screen.width - len(title)) * " ")
    
    def exceptionWindow(self, title, text):
	rc = ButtonChoiceWindow(self.screen, title, text,
                           buttons = [ _("OK"), _("Debug") ])
        if rc == string.lower (_("Debug")):
            return 1
        return None

    def waitWindow(self, title, text):
	return WaitWindow(self.screen, title, text)

    def packageProgressWindow(self, total, totalSize):
	return InstallProgressWindow(self.screen, total, totalSize)

    def __init__(self):
        self.screen = SnackScreen()
        self.welcomeText = _("Red Hat Linux (C) 1999 Red Hat, Inc.")
        self.screen.drawRootText (0, 0, self.welcomeText)
        self.screen.pushHelpLine (_("  <Tab>/<Alt-Tab> between elements   |  <Space> selects   |  <F12> next screen"))
#	self.screen.suspendCallback(killSelf, self.screen)
	self.screen.suspendCallback(debugSelf, self.screen)
        self.individual = Flag(0)
        self.step = 0
        self.dir = 1

    def __del__(self):
        self.screen.finish()

    def run(self, todo):
        self.commonSteps = [
            [_("Language Selection"), LanguageWindow, (self.screen, todo)],
            [_("Keyboard Selection"), KeyboardWindow, (self.screen, todo)],
            [_("Welcome"), WelcomeWindow, (self.screen,)],
            [_("Installation Path"), InstallPathWindow, (self.screen, todo, self)],
            ]
        
        self.installSteps = [
            [_("Network Setup"), NetworkWindow, (self.screen, todo)],
            [_("Partition"), PartitionWindow, (self.screen, todo)],
            [_("Filesystem Formatting"), FormatWindow, (self.screen, todo)],
            [_("Package Groups"), PackageGroupWindow, (self.screen, todo, self.individual)],
            [_("Individual Packages"), IndividualPackageWindow, (self.screen, todo, self.individual)],
            [_("Package Dependencies"), PackageDepWindow, (self.screen, todo)],
            [_("Mouse Configuration"), MouseWindow, (self.screen, todo)],
            [_("Authentication"), AuthConfigWindow, (self.screen, todo)],
            [_("Root Password"), RootPasswordWindow, (self.screen, todo)],
            [_("Boot Disk"), BootDiskWindow, (self.screen, todo)],
            [_("LILO Configuration"), LiloWindow, (self.screen, todo)],
            [_("Installation Begins"), BeginInstallWindow, (self.screen, todo)],
            [_("Install System"), InstallWindow, (self.screen, todo)],
            [_("Bootdisk"), BootdiskWindow, (self.screen, todo)],
            [_("Installation Complete"), FinishedWindow, (self.screen,)]
            ]

        self.upgradeSteps = [
            [_("Examine System"), UpgradeExamineWindow, (self.screen, todo)],
            [_("Customize Upgrade"), CustomizeUpgradeWindow, (self.screen, todo, self.individual)],            
            [_("Individual Packages"), IndividualPackageWindow, (self.screen, todo, self.individual)],
            [_("Upgrade System"), InstallWindow, (self.screen, todo)],
            [_("Upgrade Complete"), FinishedWindow, (self.screen,)]
            ]

        self.steps = self.commonSteps

        while self.step >= 0 and self.step < len(self.steps) and self.steps[self.step]:
            # clear out the old root text by writing spaces in the blank
            # area on the right side of the screen
            self.screen.drawRootText (len(self.welcomeText), 0,
                                     (self.screen.width - len(self.welcomeText)) * " ")
            self.screen.drawRootText (0 - len(self.steps[self.step][0]),
                                     0, self.steps[self.step][0])
            rc = apply (self.steps[self.step][1](), self.steps[self.step][2])
            if rc == -1:
                dir = -1
            elif rc == 0:
                dir = 1
            self.step = self.step + dir
        self.screen.finish ()

def killSelf(screen):
    screen.finish()
    os._exit(0)

def debugSelf(screen):
    screen.finish ()
    import pdb
    pdb.set_trace()