#!/usr/bin/python2.2 # # anaconda: The Red Hat Linux Installation program # # (in alphabetical order...) # # Brent Fox # Mike Fulbright # Jakub Jelinek # Jeremy Katz # Erik Troan # Matt Wilson # # ... And many others # # Copyright 1999-2002 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. # # This toplevel file is a little messy at the moment... import sys, os # keep up with process ID of miniwm if we start it miniwm_pid = None # helper function to duplicate diagnostic output def dup_log(format, *args): if args: sys.stdout.write ("%s\n" % (format % args)) else: sys.stdout.write ("%s\n" % format) apply(log, (format,) + args) # start miniWM def startMiniWM(root='/'): childpid = os.fork() if not childpid: args = [root + '/usr/bin/mini-wm', '--display', ':1'] os.execv(args[0], args) sys.exit (1) return childpid # function to handle X startup special issues for anaconda def doStartupX11Actions(): global miniwm_pid # now start up mini-wm try: miniwm_pid = startMiniWM() log("Started mini-wm") except: miniwm_pid = None log("Unable to start mini-wm") # test to setup dpi # cant do this if miniwm didnt run because otherwise when # we open and close an X connection in the xutils calls # the X server will exit since this is the first X # connection (if miniwm isnt running) if miniwm_pid is not None: import xutils try: if xutils.screenWidth() > 640: dpi = "96" else: dpi = "75" xutils.setRootResource('Xft.antialias', '1') xutils.setRootResource('Xft.dpi', dpi) xutils.setRootResource('Xft.hinting', '1') xutils.setRootResource('Xft.hintstyle', 'hintslight') xutils.setRootResource('Xft.rgba', 'none') except: sys.stderr.write("X SERVER STARTED, THEN FAILED"); raise RuntimeError, "X server failed to start" def doShutdownX11Actions(): global miniwm_pid if miniwm_pid is not None: try: os.kill(miniwm_pid, 15) os.waitpid(miniwm_pid, 0) except: pass # For anaconda in test mode if (os.path.exists('isys')): sys.path.append('libfdisk') sys.path.append('balkan') sys.path.append('gnome-map') sys.path.append('isys') sys.path.append('textw') sys.path.append('iw') sys.path.append('installclasses') sys.path.append('iconvmodule') else: sys.path.append('/usr/lib/anaconda') sys.path.append('/usr/lib/anaconda/textw') sys.path.append('/usr/lib/anaconda/iw') sys.path.append('/usr/lib/anaconda/installclasses') if (os.path.exists('booty')): sys.path.append('booty') sys.path.append('booty/edd') else: sys.path.append('/usr/lib/booty') sys.path.append('/usr/share/redhat-config-keyboard') try: import updates_disk_hook except ImportError: pass # do this early to keep our import footprint as small as possible # Python passed my path as argv[0]! # if sys.argv[0][-7:] == "syslogd": if len(sys.argv) > 1: if sys.argv[1] == "--syslogd": from syslogd import Syslogd root = sys.argv[2] output = sys.argv[3] syslog = Syslogd (root, open (output, "a")) # this never returns import signal, traceback, string, isys, iutil, time from exception import handleException import dispatch from flags import flags from anaconda_log import anaconda_log from rhpl.log import log from rhpl.translate import _, textdomain textdomain("anaconda") # reset python's default SIGINT handler signal.signal(signal.SIGINT, signal.SIG_DFL) # Silly GNOME stuff if os.environ.has_key('HOME'): os.environ['XAUTHORITY'] = os.environ['HOME'] + '/.Xauthority' os.environ['HOME'] = '/tmp' os.environ['LC_NUMERIC'] = 'C' if os.environ.has_key ("ANACONDAARGS"): theargs = string.split (os.environ["ANACONDAARGS"]) else: theargs = sys.argv[1:] # we can't let the LD_PRELOAD hang around because it will leak into # rpm %post and the like. ick :/ if os.environ.has_key("LD_PRELOAD"): del os.environ["LD_PRELOAD"] try: (args, extra) = isys.getopt(theargs, 'GTRxtdr:fm:', [ 'text', 'test', 'debug', 'nofallback', 'method=', 'rootpath=', 'pcic=', "overhead=", 'testpath=', 'mountfs', 'traceonly', 'kickstart=', 'lang=', 'keymap=', 'kbdtype=', 'module=', 'class=', 'expert', 'serial', 'lowres', 'nofb', 'rescue', 'nomount', 'autostep', 'resolution=', 'skipddc']) except TypeError, msg: sys.stderr.write("Error %s\n:" % msg) sys.exit(-1) if extra: sys.stderr.write("Unexpected arguments: %s\n" % extra) sys.exit(-1) # Save the arguments in case we need to reexec anaconda for kon os.environ["ANACONDAARGS"] = string.join(sys.argv[1:]) # remove the arguments - gnome_init doesn't understand them savedargs = sys.argv[1:] sys.argv = sys.argv[:1] sys.argc = 1 # Parameters for the main anaconda routine # rootPath = '/mnt/sysimage' # where to instal packages extraModules = [] # kernel modules to use display_mode = 'g' # try GUI by default debug = 0 # start up pdb immediately traceOnly = 0 # don't run, just list modules we use nofallback = 0 # if GUI mode fails, exit rescue = 0 # run in rescue mode rescue_nomount = 0 # don't automatically mount device in rescue runres = '800x600' # resolution to run the GUI install in skipddc = 0 # if true skip ddcprobe (locks some machines) instClass = None # the install class to use progmode = 'install' # 'rescue', or 'install' method = None # URL representation of install method logFile = None # may be a file object or a file name # # xcfg - xserver info (?) # mousehw - mouseinfo info # videohw - videocard info # monitorhw - monitor info # lang - language to use for install/machine default # keymap - kbd map # xcfg = None monitorhw = None videohw = None mousehw = None lang = None method = None keymap = None kbdtype = None progmode = None customClass = None kbd = None # # parse off command line arguments # for n in args: (str, arg) = n if (str == '--class'): customClass = arg elif (str == '-d' or str == '--debug'): debug = 1 elif (str == '--expert'): flags.expert = 1 elif (str == '--keymap'): keymap = arg elif (str == '--kickstart'): from kickstart import Kickstart instClass = Kickstart(arg, flags.serial) elif (str == '--lang'): lang = arg elif (str == '--lowres'): runres = '640x480' elif (str == '-m' or str == '--method'): method = arg if method[0] == '@': # ftp installs pass the password via a file in /tmp so # ps doesn't show it filename = method[1:] method = open(filename, "r").readline() method = method[:len(method) - 1] os.unlink(filename) elif (str == '--module'): (path, subdir, name) = string.split(arg, ":") extraModules.append((path, subdir, name)) elif (str == '--nofallback'): nofallback = 1 elif (str == "--nomount"): rescue_nomount = 1 elif (str == '--rescue'): progmode = 'rescue' elif (str == '--resolution'): # run native X server at specified resolution, ignore fb runres = arg elif (str == "--skipddc"): skipddc = 1 elif (str == "--autostep"): flags.autostep = 1 elif (str == '-r' or str == '--rootpath'): rootPath = arg flags.setupFilesystems = 0 logFile = sys.stderr elif (str == '--traceonly'): traceOnly = 1 elif (str == '--serial'): logFile = "/tmp/install.log" flags.serial = 1 elif (str == '-t' or str == '--test'): flags.test = 1 flags.setupFilesystems = 0 logFile = "/tmp/anaconda-debug.log" elif (str == '-T' or str == '--text'): display_mode = 't' elif (str == '--kbdtype'): kbdtype = arg # s390s don't have ttys if iutil.getArch() == "s390": logFile = "/tmp/anaconda-s390.log" #display_mode = 't' # # must specify install, rescue mode # if (progmode == 'rescue'): if (not method): sys.stderr.write('--method required for rescue mode\n') sys.exit(1) import rescue, instdata, configFileData anaconda_log.open (logFile) log.handler=anaconda_log configFile = configFileData.configFileData() configFileData = configFile.getConfigData() id = instdata.InstallData([], "fd0", configFileData, method) rescue.runRescue(rootPath, not rescue_nomount, id) # shouldn't get back here sys.exit(1) else: if (not method): sys.stderr.write('no install method specified\n') sys.exit(1) anaconda_log.open (logFile) log.handler = anaconda_log if (debug): import pdb pdb.set_trace() # let people be stupid ## # don't let folks do anything stupid on !s390 ## if (not flags.test and os.getpid() > 90 and flags.setupFilesystems and ## not iutil.getArch() == "s390"): ## sys.stderr.write( ## "You're running me on a live system! that's incredibly stupid.\n") ## sys.exit(1) import isys import instdata import floppy import xsetup import rhpl.xhwstate as xhwstate import rhpl.keyboard as keyboard # handle traceonly and exit if traceOnly: if display_mode == 'g': sys.stderr.write("traceonly is only supported for text mode\n") sys.exit(0) # prints a list of all the modules imported from text import InstallInterface from text import stepToClasses import pdb import image import harddrive import urlinstall import mimetools import mimetypes import syslogd import installclass import re import rescue import configFileData import kickstart import whiteout import findpackageset import libxml2 installclass.availableClasses() if display_mode == 't': for step in stepToClasses.keys(): if stepToClasses[step]: (mod, klass) = stepToClasses[step] exec "import %s" % mod for module in sys.__dict__['modules'].keys (): if module not in [ "__builtin__", "__main__" ]: foo = repr (sys.__dict__['modules'][module]) bar = string.split (foo, "'") if len (bar) > 3: print bar[3] sys.exit(0) # # override display mode if machine cannot nicely run X # if (not flags.test): if (iutil.memInstalled() < isys.MIN_GUI_RAM): dup_log(_("You do not have enough RAM to use the graphical " "installer. Starting text mode.")) display_mode = 't' time.sleep(2) if iutil.memInstalled() < isys.MIN_RAM: from snack import * screen = SnackScreen() ButtonChoiceWindow(screen, _('Fatal Error'), _('You do not have enough RAM to install Red Hat ' 'Linux on this machine.\n' '\n' 'Press to reboot your system.\n'), buttons = (_("OK"),)) screen.finish() sys.exit(0) # # handle class passed from loader # if customClass: import installclass classes = installclass.availableClasses(showHidden=1) for (className, objectClass, logo) in classes: if className == customClass: instClass = objectClass(flags.expert) if not instClass: sys.stderr.write("installation class %s not available\n" % customClass) sys.stderr.write("\navailable classes:\n") for (className, objectClass, logo) in classes: sys.stderr.write("\t%s\n" % className) sys.exit(1) # # if no instClass declared by user figure it out based on other cmdline args # if not instClass: from installclass import DefaultInstall instClass = DefaultInstall(flags.expert) # this lets install classes force text mode instlls if instClass.forceTextMode: display_mode = 't' # # find out what video hardware is available to run installer # # XXX kind of hacky - need to remember if we're running on an existing # X display later to avoid some initilization steps if os.environ.has_key('DISPLAY') and display_mode == 'g': x_already_set = 1 else: x_already_set = 0 # # Probe what is available for X and setup a hardware state # # try to probe interesting hw import rhpl.xserver as xserver skipddcprobe = (skipddc or (x_already_set and flags.test)) skipmouseprobe = not (not os.environ.has_key('DISPLAY') or flags.setupFilesystems) (videohw, monitorhw, mousehw) = xserver.probeHW(skipDDCProbe=skipddcprobe, skipMouseProbe = skipmouseprobe) # keyboard kbd = keyboard.Keyboard() if keymap: kbd.set(keymap) # setup a X hw state for use later with configuration xcfg = xhwstate.XF86HardwareState(defcard=videohw, defmon=monitorhw) try: xcfg = xhwstate.XF86HardwareState(defcard=videohw, defmon=monitorhw) except: print _("Unable to instantiate a X hardware state object.") xcfg = None # # delay to let use see status of attempt to probe hw # time.sleep(3) # # now determine if we're going to run in GUI or TUI mode # if (display_mode != 't' and method and method.startswith('ftp://') or method.startswith('http://') or method.startswith('hd://') or method.startswith('oldhd://')): dup_log(_("Graphical installation not available for %s installs. " "Starting text mode.") % (string.split(method, ':')[0],)) display_mode = 't' time.sleep(2) # XXX should be fixed to be more generic instead of just ifarching if iutil.getArch() != "s390": # if no mouse we force text mode mousedev = mousehw.get() if display_mode != 't' and mousedev[0] == "No - mouse": # ask for the mouse type import rhpl.mouse as mouse if mouse.mouseWindow(mousehw) == 0: dup_log(_("No mouse was detected. A mouse is required for " "graphical installation. Starting text mode.")) display_mode = 't' time.sleep(2) else: dup_log(_("Using mouse type: %s"), mousehw.shortDescription()) else: # s390 checks if display_mode == 'g' and not os.environ.has_key('DISPLAY'): dup_log("DISPLAY variable not set. Starting text mode!") display_mode = 't' time.sleep(2) if display_mode == 'g' and not os.environ.has_key('DISPLAY'): import rhpl.monitor as monitor # if no monitor probed lets guess based on runres hsync = monitorhw.getMonitorHorizSync() vsync = monitorhw.getMonitorVertSync() res_supported = monitor.monitor_supports_mode(hsync, vsync, runres) if not res_supported: if runres == "800x600": monitorhw.setSpecs("31.5-48.5", "50-70") elif runres == "1024x768": monitorhw.setSpecs("31.5-48.5", "40-70") elif runres == "1280x1024": monitorhw.setSpecs("31.5-67", "50-75") elif runres == "1400x1050": monitorhw.setSpecs("31.5-90", "59-75") elif runres == "1600x1200": monitorhw.setSpecs("31.5-90", "60") else: # just pick something reasonable for most modes monitorhw.setSpecs("31.5-65.0", "50-90") # XXX - need to fix # # messy hack for how rhpl.xhwstate works # current it wants to use probed values which we dont have so we'll # fake them hsync = monitorhw.getMonitorHorizSync() vsync = monitorhw.getMonitorVertSync() monitorhw.orig_monHoriz = hsync monitorhw.orig_monVert = vsync xsetup_failed = xserver.startXServer(videohw, monitorhw, mousehw, kbd, runres, xStartedCB=doStartupX11Actions, xQuitCB=doShutdownX11Actions) if xsetup_failed: dup_log(" X startup failed, falling back to text mode") display_mode = 't' time.sleep(2) # # read in anaconda configuration file # import configFileData configFile = configFileData.configFileData() configFileData = configFile.getConfigData() # setup links required for all install types for i in ( "services", "protocol", "nsswitch.conf"): try: os.symlink ("../mnt/runtime/etc/" + i, "/etc/" + i) except: pass # # setup links required by graphical mode if installing and verify display mode # if (display_mode == 'g'): if not flags.test and flags.setupFilesystems: for i in ( "imrc", "im_palette.pal", "gtk-2.0", "pango", "fonts"): try: os.symlink ("../mnt/runtime/etc/" + i, "/etc/" + i) except: pass # display splash screen if nofallback: from splashscreen import splashScreenShow splashScreenShow(configFileData) from gui import InstallInterface else: try: from splashscreen import splashScreenShow splashScreenShow(configFileData) from gui import InstallInterface except: # if we're not going to really go into GUI mode, we need to get # back to vc1 where the text install is going to pop up. if not x_already_set: isys.vtActivate (1) dup_log("GUI installer startup failed, falling back to text mode.") display_mode = 't' if 'DISPLAY' in os.environ.keys(): del os.environ['DISPLAY'] time.sleep(2) from text import InstallInterface if (display_mode == 't'): from text import InstallInterface from text import stepToClasses if display_mode == "t": intf = InstallInterface () else: # determine the mode we actually ended up in intf = InstallInterface () # imports after setting up the path if method: if method.startswith('cdrom://'): from image import CdromInstallMethod methodobj = CdromInstallMethod(method[8:], intf.messageWindow, intf.progressWindow, rootPath) elif method.startswith('nfs:/'): from image import NfsInstallMethod methodobj = NfsInstallMethod(method[5:], rootPath) elif method.startswith('nfsiso:/'): from image import NfsIsoInstallMethod methodobj = NfsIsoInstallMethod(method[8:], intf.messageWindow, rootPath) elif method.startswith('ftp://') or method.startswith('http://'): from urlinstall import UrlInstallMethod methodobj = UrlInstallMethod(method, rootPath) elif method.startswith('hd://'): tmpmethod = method[5:] i = string.index(tmpmethod, ":") drive = tmpmethod[0:i] tmpmethod = tmpmethod[i+1:] i = string.index(tmpmethod, "/") type = tmpmethod[0:i] dir = tmpmethod[i+1:] from harddrive import HardDriveInstallMethod methodobj = HardDriveInstallMethod(drive, type, dir, intf.messageWindow, rootPath) elif method.startswith('oldhd://'): tmpmethod = method[8:] i = string.index(tmpmethod, ":") drive = tmpmethod[0:i] tmpmethod = tmpmethod[i+1:] i = string.index(tmpmethod, "/") type = tmpmethod[0:i] dir = tmpmethod[i+1:] from harddrive import OldHardDriveInstallMethod methodobj = OldHardDriveInstallMethod(drive, type, dir, rootPath) else: print "unknown install method:", method sys.exit(1) floppyDevice = floppy.probeFloppyDevice() # create device nodes for detected devices if we're not running in test mode if not flags.test and flags.setupFilesystems: iutil.makeDriveDeviceNodes() id = instClass.installDataClass(extraModules, floppyDevice, configFileData, method) id.x_already_set = x_already_set if mousehw: id.setMouse(mousehw) if videohw: id.setVideoCard(videohw) if monitorhw: id.setMonitor(monitorhw) # # not sure what to do here - somehow we didnt detect anything # if xcfg is None: try: xcfg = xhwstate.XF86HardwareState() except: print _("Unable to instantiate a X hardware state object.") xcfg = None if xcfg is not None: xsetup = xsetup.XSetup(xcfg) id.setXSetup(xsetup) if kbd: id.setKeyboard(kbd) instClass.setInstallData(id) dispatch = dispatch.Dispatcher(intf, id, methodobj, rootPath) if lang: dispatch.skipStep("language", permanent = 1) instClass.setLanguage(id, lang) if keymap: dispatch.skipStep("keyboard", permanent = 1) instClass.setKeyboard(id, keymap) instClass.setSteps(dispatch) # We shouldn't need this again # XXX #del id # # XXX This is surely broken # #if iutil.getArch() == "sparc": # import kudzu # mice = kudzu.probe (kudzu.CLASS_MOUSE, kudzu.BUS_UNSPEC, kudzu.PROBE_ONE); # if mice: # (mouseDev, driver, descr) = mice[0] # if mouseDev == 'sunmouse': # instClass.addToSkipList("mouse") # instClass.setMouseType("Sun - Mouse", "sunmouse") # comment out the next line to make exceptions non-fatal sys.excepthook = lambda type, value, tb, dispatch=dispatch, intf=intf: handleException(dispatch, intf, (type, value, tb)) try: intf.run(id, dispatch, configFileData) except SystemExit, code: intf.shutdown() except: handleException(dispatch, intf, sys.exc_info()) del intf