# this is the prototypical class for workstation, server, and kickstart # installs # # The interface to BaseInstallClass is *public* -- ISVs/OEMs can customize the # install by creating a new derived type of this class. # # Copyright 1999-2004 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 os, sys, iutil import string import language from instdata import InstallData from partitioning import * from autopart import getAutopartitionBoot, autoCreatePartitionRequests, autoCreateLVMPartitionRequests from rhpl.log import log from rhpl.translate import _, N_ from constants import BETANAG class BaseInstallClass: # default to not being hidden hidden = 0 pixmap = None showMinimal = 1 showLoginChoice = 0 description = None name = "base" pkgstext = "" # default to showing the upgrade option showUpgrade = 1 # pkgstext = _("\tDesktop shell (GNOME)\n" # "\tOffice suite (OpenOffice)\n" # "\tWeb browser (Mozilla) \n" # "\tEmail (Evolution)\n" # "\tInstant messaging\n" # "\tSound and video applications\n" # "\tGames\n" # "\tSoftware Development Tools\n" # "\tAdministration Tools\n") # don't select this class by default default = 0 # don't force text mode forceTextMode = 0 # by default, place this under the "install" category; it gets it's # own toplevel category otherwise parentClass = ( _("Install on System"), "install.png" ) # we can use a different install data class installDataClass = InstallData def postAction(self, rootPath, serial): pass def setBootloader(self, id, useLilo=0, location=None, linear=1, forceLBA=0, password=None, md5pass=None, appendLine="", driveorder = []): if useLilo: id.bootloader.useGrubVal = 0 if appendLine: id.bootloader.args.set(appendLine) id.bootloader.setForceLBA(forceLBA) id.bootloader.useLinear = linear if password: id.bootloader.setPassword(password, isCrypted = 0) if md5pass: id.bootloader.setPassword(md5pass) if location != None: id.bootloader.defaultDevice = location else: id.bootloader.defaultDevice = -1 # XXX throw out drives specified that don't exist. anything else # seems silly if driveorder and len(driveorder) > 0: new = [] for drive in driveorder: if drive in id.bootloader.drivelist: new.append(drive) else: log("requested drive %s in boot drive order doesn't " "exist" %(drive,)) id.bootloader.drivelist = new def setIgnoredDisks(self, id, drives): diskset = id.diskset for drive in drives: if not drive in diskset.skippedDisks: diskset.skippedDisks.append(drive) def setClearParts(self, id, clear, drives = None, warningText = None, initAll = 0): id.partitions.autoClearPartType = clear id.partitions.autoClearPartDrives = drives if initAll: id.partitions.reinitializeDisks = initAll # XXX hack for install help text in GUI mode if clear == CLEARPART_TYPE_LINUX: self.clearType = "wkst" if clear == CLEARPART_TYPE_ALL: self.clearType = "svr" self.clearPartText = warningText def setSteps(self, dispatch): dispatch.setStepList( "language", "keyboard", # "checkmonitorok", # "monitor", # "setsanex", "welcome", "findrootparts", "betanag", "installtype", "zfcpconfig", "partitionmethod", "partitionobjinit", "partitionmethodsetup", "autopartition", "autopartitionexecute", "fdisk", "partition", "partitiondone", "bootloadersetup", "bootloader", "networkdevicecheck", "network", "firewall", "languagesupport", "timezone", "accounts", "readcomps", "selectlangpackages", "package-selection", "handleX11pkgs", "checkdeps", "dependencies", "confirminstall", "install", "enablefilesystems", "migratefilesystems", "setuptime", "preinstallconfig", "installpackages", "postinstallconfig", "writeconfig", "firstboot", "instbootloader", "dopostaction", "writexconfig", "writeksconfig", "bootdisk", "methodcomplete", "copylogs", "setfilecon", "complete" ) if not BETANAG: dispatch.skipStep("betanag", permanent=1) if iutil.getArch() != "s390": dispatch.skipStep("zfcpconfig") if iutil.getArch() != "i386" or 1: dispatch.skipStep("bootdisk") # see if we need to write out a rescue boot floppy if iutil.getArch() == "i386": import floppy if not floppy.hasFloppyDevice(): dispatch.skipStep("bootdisk") if iutil.getArch() != "i386" and iutil.getArch() != "x86_64": dispatch.skipStep("bootloader") # allow install classes to turn off the upgrade if self.showUpgrade == 0: dispatch.skipStep("findrootparts", skip = 1) # 'noupgrade' can be used on the command line to force not looking # for partitions to upgrade. useful in some cases... cmdline = open("/proc/cmdline", "r").read() cmdline = cmdline.split() if "noupgrade" in cmdline: dispatch.skipStep("findrootparts", skip = 1) # upgrade will also always force looking for an upgrade. if "upgrade" in cmdline: dispatch.skipStep("findrootparts", skip = 0) # if there's only one install class, it doesn't make much sense # to show it if len(availableClasses()) < 2: dispatch.skipStep("installtype", permanent=1) # called from anaconda so that we can skip steps in the headless case # in a perfect world, the steps would be able to figure this out # themselves by looking at instdata.headless. but c'est la vie. def setAsHeadless(self, dispatch, isHeadless = 0): if isHeadless == 0: pass else: dispatch.skipStep("keyboard", permanent = 1) # dispatch.skipStep("mouse", permanent = 1) dispatch.skipStep("handleX11pkgs", permanent = 1) dispatch.skipStep("videocard", permanent = 1) dispatch.skipStep("monitor", permanent = 1) dispatch.skipStep("xcustom", permanent = 1) dispatch.skipStep("writexconfig", permanent = 1) # This is called after the hdlist is read in. def setPackageSelection(self, hdlist, intf): pass # This is called after the comps is read in (after setPackageSelection()). # It can both select groups, change the default selection for groups, and # change which groups are hidden. def setGroupSelection(self, grpset, intf): pass def setZFCP(self, id, devnum, scsiid, wwpn, scsilun, fcplun): id.zfcp.fcpdevices.append( (devnum, scsiid, wwpn, scsilun, fcplun) ) def getMakeBootdisk(self): return self.makeBootdisk def setMakeBootdisk(self, state): self.makeBootdisk = state def setZeroMbr(self, id, zeroMbr): id.partitions.zeroMbr = zeroMbr def setEarlySwapOn(self, state = 0): self.earlySwapOn = state def setKeyboard(self, id, kb): id.keyboard.set(kb) # activate the keyboard changes # id.keyboard.activate() # XXX #apply (todo.x.setKeyboard, xkb) ## hack - apply to instclass preset if present as well #if (todo.instClass.x): #apply (todo.instClass.x.setKeyboard, xkb) def setHostname(self, id, hostname, override = 0): id.network.setHostname(hostname); id.network.overrideDHCPhostname = override def setNameserver(self, id, nameserver): id.network.setDNS(nameserver) def setGateway(self, id, gateway): id.network.setGateway(gateway) def setTimezoneInfo(self, id, timezone, asUtc = 0, asArc = 0): id.timezone.setTimezoneInfo(timezone, asUtc, asArc) def setRootPassword(self, id, pw, isCrypted = 0): id.rootPassword.set(pw, isCrypted) def setAuthentication(self, id, useShadow, useMd5, useNIS = 0, nisDomain = "", nisBroadcast = 0, nisServer = "", useLdap = 0, useLdapauth = 0, ldapServer = "", ldapBasedn = "", useldapTls = 0, useKrb5 = 0, krb5Realm = "", krb5Kdc = "", krb5Admin = "", useHesiod = 0, hesiodLhs = "", hesiodRhs = "", useSamba = 0, sambaServer= "", sambaWorkgroup = "", enableCache = 0): id.auth.useShadow = useShadow id.auth.useMD5 = useMd5 id.auth.useNIS = useNIS id.auth.nisDomain = nisDomain id.auth.nisuseBroadcast = nisBroadcast id.auth.nisServer = nisServer id.auth.useLdap = useLdap id.auth.useLdapauth = useLdapauth id.auth.ldapServer = ldapServer id.auth.ldapBasedn = ldapBasedn id.auth.ldapTLS = useldapTls id.auth.useKrb5 = useKrb5 id.auth.krb5Realm = krb5Realm id.auth.krb5Kdc = krb5Kdc id.auth.krb5Admin = krb5Admin id.auth.useHesiod = useHesiod id.auth.hesiodLhs = hesiodLhs id.auth.hesiodRhs = hesiodRhs id.auth.useSamba = useSamba id.auth.sambaServer = sambaServer id.auth.sambaWorkgroup = sambaWorkgroup id.auth.enableCache = enableCache def setNetwork(self, id, bootProto, ip, netmask, ethtool, device = None, onboot = 1, dhcpclass = None, essid = None, wepkey = None): if bootProto: devices = id.network.netdevices firstdev = id.network.getFirstDeviceName() if (devices and bootProto): if not device: if devices.has_key(firstdev): device = firstdev else: list = devices.keys () list.sort() device = list[0] dev = devices[device] dev.set (("bootproto", bootProto)) dev.set (("dhcpclass", dhcpclass)) if onboot: dev.set (("onboot", "yes")) else: dev.set (("onboot", "no")) if bootProto == "static": if (ip): dev.set (("ipaddr", ip)) if (netmask): dev.set (("netmask", netmask)) if ethtool: dev.set (("ethtool_opts", ethtool)) if isys.isWireless(device): if essid: dev.set(("essid", essid)) if wepkey: dev.set(("wepkey", wepkey)) def setLanguageSupport(self, id, langlist): if len (langlist) == 0: id.langSupport.setSupported(id.langSupport.getAllSupported()) else: newlist = [] for lang in langlist: newlist.append(id.langSupport.getLangNameByNick(lang)) default = id.langSupport.getDefault() if default not in newlist: newlist.append(default) id.langSupport.setSupported(newlist) def setLanguageDefault(self, id, default): id.langSupport.setDefault(id.langSupport.getLangNameByNick(default)) def setLanguage(self, id, lang): instLangName = id.instLanguage.getLangNameByNick(lang) id.instLanguage.setRuntimeLanguage(instLangName) def setDesktop(self, id, desktop): id.desktop.setDefaultDesktop (desktop) def setSELinux(self, id, sel): id.security.setSELinux(sel) def setZFCP(self, id, fcpdev): id.zfcp.fcpdevices = fcpdev def setFirewall(self, id, enable = 1, trusts = [], ports = []): id.firewall.enabled = enable id.firewall.trustdevs = trusts # this is a little ugly, but we want to let setting a service # like --ssh enable the service in case they're doing an interactive # kickstart install for port in ports: found = 0 for s in id.firewall.services: p = s.get_ports() # don't worry about the ones that are more than one, # this is really for legacy use only if len(p) > 1: continue if p[0] == port: s.set_enabled(1) found = 1 break if not found: id.firewall.portlist.append(port) def setMiscXSettings(self, id, depth = None, resolution = None, desktop = None, runlevel = None): if depth: availableDepths = id.xsetup.xhwstate.available_color_depths() if depth not in availableDepths: log("Requested depth %s not available, falling back to %s" %(depth, availableDepths[-1])) depth = availableDepths[-1] id.xsetup.xhwstate.set_colordepth(depth) if resolution: availableRes = id.xsetup.xhwstate.available_resolutions() if resolution not in availableRes: log("Requested resolution %s is not supported, falling " "back to %s. To avoid this you may need to specify the " "videocard and monitor specs on the xconfig ks " "directive if they were not probed correctly." %(resolution, availableRes[-1])) resolution = availableRes[-1] id.xsetup.xhwstate.set_resolution(resolution) if not resolution and not depth: # choose a sane default log("resolution and depth not specified, trying to be sane") id.xsetup.xhwstate.choose_sane_default() if desktop is not None: id.desktop.setDefaultDesktop(desktop) if runlevel is not None: id.desktop.setDefaultRunLevel(runlevel) def setMonitor(self, id, hsync = None, vsync = None, monitorName = None): if monitorName: usemon = monitorName elif id.monitor.getMonitorID() != "Unprobed Monitor": usemon = id.monitor.getMonitorName() else: usemon = None setmonitor = 0 if usemon: monname = usemon try: (model, eisa, vert, horiz) = id.monitor.lookupMonitorByName(usemon) if id.monitor.getMonitorID() != "DDCPROBED": useid = model else: useid = "DDCPROBED" if not vsync: vsync = vert if not hsync: hsync = horiz id.monitor.setSpecs(hsync, vsync, id=useid, name=model) setmonitor = 1 except: log("Couldnt lookup monitor type %s." % usemon) pass else: monname = "Unprobed Monitor" if not setmonitor and hsync and vsync: id.monitor.setSpecs(hsync, vsync) setmonitor = 1 if not setmonitor: # fall back to standard VGA log("Could not probe monitor, and no fallback specified.") log("Falling back to Generic VGA monitor") try: hsync = "31.5-37.9" vsync = "50.0-61.0" monname = "Unprobed Monitor" id.monitor.setSpecs(hsync, vsync) except: raise RuntimeError, "Could not probe monitor and fallback failed." # shove into hw state object, force it to recompute available modes id.xsetup.xhwstate.monitor = id.monitor id.xsetup.xhwstate.set_monitor_name(monname) id.xsetup.xhwstate.set_hsync(hsync) id.xsetup.xhwstate.set_vsync(vsync) id.xsetup.xhwstate.recalc_mode() def setVideoCard(self, id, server = None, card = None, videoRam = None): # oh suck. if on ppc, bail because nothing other than fbdev is # going to work all that well if iutil.getArch() == "ppc": return primary = id.videocard.primaryCard() if card: db = id.videocard.cardsDB() if db.has_key(card): vcdata = db[card] primary.setCardData(vcdata) primary.setDevID(vcdata["NAME"]) primary.setDescription(vcdata["NAME"]) id.xsetup.xhwstate.set_videocard_name(vcdata["NAME"]) id.xsetup.xhwstate.set_videocard_card(vcdata["NAME"]) else: raise RuntimeError, "Unknown videocard specified: %s" %(card,) if videoRam: # FIXME: this required casting is ugly id.videocard.primaryCard().setVideoRam(str(videoRam)) id.xsetup.xhwstate.set_videocard_ram(int(videoRam)) if server is not None: log("unable to really do anything with server right now") def configureX(self, id, server = None, card = None, videoRam = None, monitorName = None, hsync = None, vsync = None, resolution = None, depth = None, noProbe = 0, startX = 0): self.setVideoCard(id, server, card, videoRam) self.setMonitor(id, hsync, vsync, monitorName) if startX: rl = 5 else: rl = 3 self.setMiscXSettings(id, depth, resolution, runlevel = rl) def setMouse(self, id, mouseType, device = None, emulThree = -1): import rhpl.mouse as mouse # blindly trust what we're told mouse = mouse.Mouse(skipProbe = 1) mouseName = mouse.mouseToMouse()[mouseType] mouse.set(mouseName, emulThree, device) id.setMouse(mouse) def setDefaultPartitioning(self, partitions, clear = CLEARPART_TYPE_LINUX, doClear = 1): autorequests = [ ("/", None, 1024, None, 1, 1, 1) ] bootreq = getAutopartitionBoot() if bootreq: autorequests.extend(bootreq) (minswap, maxswap) = iutil.swapSuggestion() autorequests.append((None, "swap", minswap, maxswap, 1, 1, 1)) if doClear: partitions.autoClearPartType = clear partitions.autoClearPartDrives = [] partitions.autoPartitionRequests = autoCreateLVMPartitionRequests(autorequests) def setInstallData(self, id, intf = None): id.reset() id.instClass = self # Classes should call these on __init__ to set up install data #id.setKeyboard() #id.setLanguage() #id.setNetwork() #id.setFirewall() #id.setLanguageSupport() #id.setLanguageDefault() #id.setTimezone() #id.setRootPassword() #id.setAuthentication() #id.setHostname() #id.setDesktop() #id.setMouse() # These are callbacks used to let classes configure packages #id.setPackageSelection() #id.setGroupSelection() def __init__(self, expert): pass # we need to be able to differentiate between this and custom class DefaultInstall(BaseInstallClass): def __init__(self, expert): BaseInstallClass.__init__(self, expert) allClasses = [] allClasses_hidden = [] # returns ( className, classObject, classLogo ) tuples def availableClasses(showHidden=0): global allClasses global allClasses_hidden if not showHidden: if allClasses: return allClasses else: if allClasses_hidden: return allClasses_hidden if os.access("installclasses", os.R_OK): path = "installclasses" elif os.access("/tmp/product/installclasses", os.R_OK): path = "/tmp/product/installclasses" else: path = "/usr/lib/anaconda/installclasses" # append the location of installclasses to the python path so we # can import them sys.path.append(path) files = os.listdir(path) done = {} list = [] for file in files: if file[0] == '.': continue if len (file) < 4: continue if file[-3:] != ".py" and file[-4:-1] != ".py": continue mainName = string.split(file, ".")[0] if done.has_key(mainName): continue done[mainName] = 1 obj = None cmd = "import %s\nif %s.__dict__.has_key('InstallClass'): obj = %s.InstallClass\n" % (mainName, mainName, mainName) exec(cmd) if obj: if obj.__dict__.has_key('sortPriority'): sortOrder = obj.sortPriority else: sortOrder = 0 if obj.__dict__.has_key('arch'): if obj.arch != iutil.getArch (): obj.hidden = 1 if obj.hidden == 0 or showHidden == 1: list.append(((obj.name, obj, obj.pixmap), sortOrder)) list.sort(ordering) for (item, priority) in list: if showHidden: allClasses_hidden.append(item) else: allClasses.append(item) if showHidden: return allClasses_hidden else: return allClasses def ordering(first, second): ((name1, obj, logo), priority1) = first ((name2, obj, logo), priority2) = second if priority1 < priority2: return -1 elif priority1 > priority2: return 1 if name1 < name2: return -1 elif name1 > name2: return 1 return 0 def requireDisplayMode(): return None