# # xconfig_text.py: text mode X Windows System setup 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 copy from monitor import isValidSyncRange from videocard import Videocard_blacklist from constants_text import * from snack import * from translate import _ class XCustomWindow: def depthchangeCB(self, screen): (button, result) = ListboxChoiceWindow(screen, _("Color Depth"), _("Please select the color depth you " "would like to use:") , self.available_depths, [ TEXT_OK_BUTTON, TEXT_CANCEL_BUTTON], scroll = 0, height = 3, help = "colordepthsel", default = self.bit_depth.index(self.selectedDepth)) if button != TEXT_CANCEL_CHECK: self.selectedDepth = self.bit_depth[result] self.available_res = self.available_res_by_depth[self.selectedDepth] if not self.selectedRes in self.available_res: self.selectedRes = self.available_res[-1] def reschangeCB(self, screen): try: sel = self.available_res.index(self.selectedRes) except: sel = len(self.available_res) (button, result) = ListboxChoiceWindow(screen, _("Resolution"), _("Please select the resolution you " "would like to use:") , self.available_res, [ TEXT_OK_BUTTON, TEXT_CANCEL_BUTTON], scroll = (len(self.available_res) > 7), height = 7, help = "resdepthsel", default = sel) if button != TEXT_CANCEL_CHECK: self.selectedRes = self.available_res[result] def testCB(self, screen): newmodes = {} newmodes[self.selectedDepth] = [] newmodes[self.selectedDepth].append (self.selectedRes) manmodes = self.xconfig.getManualModes() self.xconfig.setManualModes(newmodes) try: self.xconfig.test (root="/mnt/sysimage") except RuntimeError: ### test failed window pass self.xconfig.setManualModes(manmodes) def loginCB(self, widget): if widget == self.graphrb: self.selectedRunLevel = 5 elif widget == self.textrb: self.selectedRunLevel = 3 else: print "Invalid widget in xconfig_text::loginCB" def desktopCB(self, widget): if widget == self.gnomerb: self.selectedDesktop = "GNOME" elif widget == self.kderb: self.selectedDesktop = "KDE" else: print "Invalid widget in xconfig_text::desktopCB" def __call__(self, screen, xconfig, monitor, videocard, desktop, comps): def numCompare (first, second): first = string.atoi (first) second = string.atoi (second) if first > second: return 1 elif first < second: return -1 return 0 self.xconfig = xconfig depth_list = [(_("256 Colors (8 Bit)")), (_("High Color (16 Bit)")), (_("True Color (24 Bit)"))] self.bit_depth = ["8", "16", "32"] self.available_res_by_depth = self.xconfig.availableModes() availableDepths = [] for adepth in self.available_res_by_depth.keys(): if len(self.available_res_by_depth[adepth]) > 0: availableDepths.append(adepth) availableDepths.sort(numCompare) self.available_depths = [] for i in availableDepths: self.available_depths.append(depth_list[self.bit_depth.index(i)]) if not videocard.getSupportedModes(): self.res_list = ["640x480", "800x600", "1024x768", "1152x864", "1280x1024", "1400x1050", "1600x1200"] else: self.res_list = videocard.getSupportedModes() for depth in availableDepths: tmpavail = copy.copy(self.available_res_by_depth[depth]) for mode in self.available_res_by_depth[depth]: if mode not in self.res_list: tmpavail.remove(mode) self.available_res_by_depth[depth] = tmpavail manualmodes = self.xconfig.getManualModes() if manualmodes: self.selectedDepth = manualmodes.keys()[0] self.selectedRes = manualmodes[self.selectedDepth][0] else: self.selectedDepth = None self.selectedRes = None # if selected depth not acceptable then force it to be at least 8bpp if self.selectedDepth and int(self.selectedDepth) < 8: self.selectedDepth = "8" if not self.selectedDepth or not self.selectedRes: if len(self.available_res_by_depth) == 1: self.available_res = self.available_res_by_depth["8"] self.selectedDepth = "8" self.selectedRes = self.available_res[0] elif len(self.available_res_by_depth) >= 2: #--If they can do 16 bit color, default to 16 bit at 1024x768 self.selectedDepth = "16" self.available_res = self.available_res_by_depth["16"] if "1024x768" in self.available_res_by_depth["16"]: self.selectedRes = "1024x768" elif "800x600" in self.available_res_by_depth["16"]: self.selectedRes = "800x600" else: self.selectedRes = "640x480" else: self.available_res = self.available_res_by_depth[self.selectedDepth] #--If both KDE and GNOME are selected if comps: gnomeSelected = (comps.packages.has_key('gnome-core') and comps.packages['gnome-core'].selected) kdeSelected = (comps.packages.has_key('kdebase') and comps.packages['kdebase'].selected) else: gnomeSelected = 0 kdeSelected = 0 self.selectedDesktop = desktop.getDefaultDesktop() self.selectedRunLevel = desktop.getDefaultRunLevel() while 1: bb = ButtonBar (screen, (TEXT_OK_BUTTON, (_("Test"), "test"), TEXT_BACK_BUTTON)) toplevel = GridFormHelp (screen, _("X Customization"), "custom", 1, 5) text = _("Select the color depth and video mode you want to " "use for your system. " "Use the '%s' button to test the video mode." % (_("Test"))) customgrid = Grid(3,2) label = Label(_("Color Depth:")) customgrid.setField(label, 0, 0, (0, 0, 0, 1), anchorLeft = 1) field = Textbox(20, 1, depth_list[self.bit_depth.index(self.selectedDepth)]) customgrid.setField(field, 1, 0, (0, 0, 0, 1), anchorLeft = 1) depthchangebutton = CompactButton(_("Change")) customgrid.setField (depthchangebutton, 2, 0, (0, 0, 0, 1), anchorLeft = 1) label = Label(_("Resolution:")) customgrid.setField(label, 0, 1, (0, 0, 0, 1), anchorLeft = 1) field = Textbox(14, 1, self.selectedRes) customgrid.setField(field, 1, 1, (0, 0, 0, 1), anchorLeft = 1) reschangebutton = CompactButton(_("Change")) customgrid.setField (reschangebutton, 2, 1, (0, 0, 0, 1), anchorLeft = 1) if gnomeSelected or kdeSelected: desktopgrid = Grid(3,2) label = Label(_("Default Desktop:")) desktopgrid.setField(label, 0, 1, (0, 0, 0, 1), anchorLeft = 1) if gnomeSelected and kdeSelected: self.gnomerb = SingleRadioButton(_("GNOME"), None, self.selectedDesktop == "GNOME") self.kderb = SingleRadioButton(_("KDE"), self.gnomerb, self.selectedDesktop == "KDE") self.gnomerb.setCallback(self.desktopCB, self.gnomerb) self.kderb.setCallback(self.desktopCB, self.kderb) desktopgrid.setField(self.gnomerb, 1, 1, (0, 0, 0, 1), anchorLeft = 1) desktopgrid.setField(self.kderb, 2, 1, (0, 0, 0, 1), anchorLeft = 1) elif gnomeSelected: desktopgrid.setField(Textbox(10, 1, _("GNOME")), 1, 1, (0, 0, 0, 1), anchorLeft = 1) elif kdeSelected: desktopgrid.setField(Textbox(10, 1, _("KDE")), 1, 1, (0, 0, 0, 1), anchorLeft = 1) else: desktopgrid = None runlevelgrid = Grid(3,2) label = Label(_("Default Login:")) runlevelgrid.setField(label, 0, 1, (0, 0, 0, 1), anchorLeft = 1) self.graphrb = SingleRadioButton(_("Graphical"), None, (self.selectedRunLevel == 5)) self.textrb = SingleRadioButton(_("Text"), self.graphrb, (self.selectedRunLevel == 3)) self.graphrb.setCallback(self.loginCB, self.graphrb) self.textrb.setCallback(self.loginCB, self.textrb) runlevelgrid.setField(self.graphrb, 1, 1, (0, 0, 0, 1), anchorLeft = 1) runlevelgrid.setField(self.textrb, 2, 1, (0, 0, 0, 1), anchorLeft = 1) toplevel.add(TextboxReflowed(55, text), 0, 0, (0, 0, 0, 1)) toplevel.add(customgrid, 0, 1, (0, 0, 0, 0), growx = 1) if desktopgrid: toplevel.add(desktopgrid, 0, 2, (0, 0, 0, 0), growx = 1) toplevel.add(runlevelgrid, 0, 3, (0, 0, 0, 0), growx = 1) toplevel.add(bb, 0, 4, (0, 0, 0, 0), growx = 1) result = toplevel.run () rc = bb.buttonPressed (result) if rc == TEXT_BACK_CHECK: screen.popWindow() return INSTALL_BACK elif rc == TEXT_OK_CHECK or result == TEXT_F12_CHECK: screen.popWindow() break elif rc == "test": self.testCB(screen) elif result == depthchangebutton: self.depthchangeCB(screen) elif result == reschangebutton: self.reschangeCB(screen) screen.popWindow() # store results newmodes = {} newmodes[self.selectedDepth] = [] newmodes[self.selectedDepth].append (self.selectedRes) self.xconfig.setManualModes(newmodes) desktop.setDefaultDesktop (self.selectedDesktop) desktop.setDefaultRunLevel(self.selectedRunLevel) return INSTALL_OK class MonitorWindow: def monchangeCB(self, screen): (button, result) = ListboxChoiceWindow(screen, _("Monitor"), _("Please select the monitor attached to your " "system.") , self.monitorsnames, [ TEXT_OK_BUTTON, TEXT_CANCEL_BUTTON], scroll = 1, height = 7, help = "monitor", default = self.selectedMonitor) if button != TEXT_CANCEL_CHECK: self.selectedMonitor = result selMonitorName = self.monitorsnames[self.selectedMonitor] selMonitor = self.monitor.lookupMonitor(selMonitorName) self.hsync = selMonitor[3] self.vsync = selMonitor[2] def syncchangeCB(self, screen): bb = ButtonBar(screen, (TEXT_OK_BUTTON, TEXT_CANCEL_BUTTON)) toplevel = GridFormHelp(screen, _("Monitor Sync Rates"), "monitorsyncrates", 1, 5) syncgrid = Grid(2,2) text = _("Please enter the sync rates for your monitor. \n\nNOTE - " "it is not usually necessary to edit sync rates manually, " "and care should be taken to " "make sure the values entered are accurate.") label = Label(_("HSync Rate: ")) syncgrid.setField(label, 0, 0, (0, 0, 0, 1), anchorLeft = 1) hentry = Entry(30) hentry.set(self.hsync) syncgrid.setField(hentry, 1, 0, (0, 0, 0, 1), anchorLeft = 1) label = Label(_("VSync Rate: ")) syncgrid.setField(label, 0, 1, (0, 0, 0, 1), anchorLeft = 1) ventry = Entry(30) ventry.set(self.vsync) syncgrid.setField(ventry, 1, 1, (0, 0, 0, 1), anchorLeft = 1) toplevel.add(TextboxReflowed(55, text), 0, 0, (0, 0, 0, 0)) toplevel.add(syncgrid, 0, 1, (0, 1, 0, 1), growx = 1) toplevel.add(bb, 0, 3, (0, 0, 0, 0), growx = 1) while 1: result = toplevel.run() rc = bb.buttonPressed(result) if rc == TEXT_CANCEL_CHECK: screen.popWindow() return elif rc == TEXT_OK_CHECK or result == TEXT_F12_CHECK: if hentry.value() and ventry.value(): hval = hentry.value() vval = ventry.value() hgood = isValidSyncRange(hval) vgood = isValidSyncRange(vval) if not hgood: badtitle = _("horizontal") badone = hval elif not vgood: badtitle = _("vertical") badone = vval if isValidSyncRange(hval) and isValidSyncRange(vval): self.hsync = hval self.vsync = vval screen.popWindow() return else: ButtonChoiceWindow(screen, _("Invalid Sync Rates"), _("The %s sync rate is invalid:\n\n %s\n\n" "A valid sync rate can be of the form:\n\n" " 31.5 a single number\n" " 50.1-90.2 a range of numbers\n" "31.5,35.0,39.3-40.0 a list of numbers/ranges\n") % (badtitle, badone), buttons = [ TEXT_OK_BUTTON ], width = 45) def resetCB(self, screen): self.hsync = self.orig_hsync self.vsync = self.orig_vsync self.selectedMonitor = self.origMonitor def __call__(self, screen, xconfig, monitor): self.xconfig = xconfig self.monitor = monitor self.monDB = self.monitor.monitorsDB() self.monitorslist = {} for man in self.monDB.keys(): for mon in self.monDB[man]: self.monitorslist[mon[0]] = mon self.monitorsnames = self.monitorslist.keys() self.monitorsnames.sort() try: self.origMonitor = self.monitorsnames.index(self.monitor.getMonitorID(useProbed=1)) except: self.origMonitor = 0 try: self.selectedMonitor = self.monitorsnames.index(self.monitor.getMonitorID()) except: try: self.selectedMonitor = self.monitorsnames.index('Generic Standard VGA, 640x480 @ 60 Hz') except: raise RuntimeError, "Could not match monitor %s" % (self.monitor.getMonitorID()) self.hsync = self.monitor.getMonitorHorizSync() self.orig_hsync = self.monitor.getMonitorHorizSync(useProbed=1) self.vsync = self.monitor.getMonitorVertSync() self.orig_vsync = self.monitor.getMonitorVertSync(useProbed=1) while 1: selMonitorName = self.monitorsnames[self.selectedMonitor] selMonitor = self.monitor.lookupMonitor(selMonitorName) bb = ButtonBar (screen, (TEXT_OK_BUTTON, (_("Default"), "default"), TEXT_BACK_BUTTON)) toplevel = GridFormHelp (screen, _("Monitor Configuration"), "monitor", 1, 5) text = _("Select the monitor for your system. Use the '%s' " "button to reset to the probed values.") % (_("Default")) videogrid = Grid(3, 3) label = Label(_("Monitor:")) videogrid.setField (label, 0, 0, (0, 0, 0, 1), anchorLeft = 1) monlabel = Textbox(20, 1, (selMonitor[0])) videogrid.setField (monlabel, 1, 0, (0, 0, 0, 1), anchorLeft = 1) monchangebutton = CompactButton(_("Change")) videogrid.setField (monchangebutton, 2, 0, (0, 0, 0, 1), anchorLeft = 1) label = Label(_("HSync Rate:")) videogrid.setField (label, 0, 1, (0, 0, 0, 0), anchorLeft = 1) if self.hsync: synctext = self.hsync else: synctext = "Unknown" synclabel = Textbox(20, 1, synctext) videogrid.setField (synclabel, 1, 1, (0, 0, 0, 0), anchorLeft = 1) syncchangebutton = CompactButton(_("Change")) videogrid.setField (syncchangebutton, 2, 1, (0, 0, 0, 0), anchorLeft = 1) label = Label(_("VSync Rate:")) videogrid.setField (label, 0, 2, (0, 0, 0, 0), anchorLeft = 1) if self.vsync: synctext = self.vsync else: synctext = "Unknown" synclabel = Textbox(20, 1, synctext) videogrid.setField (synclabel, 1, 2, (0, 0, 0, 0), anchorLeft = 1) toplevel.add(TextboxReflowed(60, text), 0, 0, (0, 0, 0, 0)) toplevel.add(videogrid, 0, 1, (0, 1, 0, 1), growx = 1) toplevel.add(bb, 0, 4, (0, 0, 0, 0), growx = 1) result = toplevel.run () rc = bb.buttonPressed (result) if rc == TEXT_BACK_CHECK: # XXX - dont let them go back to make boot disk screen ButtonChoiceWindow(screen, _("Error"), _("You cannot go back from this " "step."), buttons = [ TEXT_OK_BUTTON ]) elif rc == TEXT_OK_CHECK or result == TEXT_F12_CHECK: screen.popWindow() break elif rc == "default": self.resetCB(screen) elif result == monchangebutton: self.monchangeCB(screen) elif result == syncchangebutton: self.syncchangeCB(screen) screen.popWindow() # store results selMonitorName = self.monitorsnames[self.selectedMonitor] selMonitor = self.monitor.lookupMonitor(selMonitorName) self.monitor.setSpecs(selMonitor[3], selMonitor[2], id=selMonitor[0], name=selMonitor[0]) return INSTALL_OK class XConfigWindowCard: # try to match card currently selected, then a generic VGA if card not # found, then just first in list def findCardInList(self, current_cardsel): index = 0 backupindex = None for card in self.cardslist: if card == current_cardsel: self.curcardindex = index break elif card == "Generic VGA compatible": backupindex = index index = index + 1 if index < len(self.cardslist): return index elif backupindex: return backupindex else: return 0 def cardchangeCB(self, screen): while 1: (button, result) = ListboxChoiceWindow(screen, _("Video Card"), _("Please select the video card present in your " "system. Choose '%s' to reset the selection to " "the card the installer detected in your " "system.") % (_("Default")) , self.cardslist, [ TEXT_OK_BUTTON, (_("Default"), "default")], scroll = 1, height = 7, help = "videocardsel", default = self.selectedCard) if button == 'default': self.selectedCard = self.origCard else: break self.selectedCard = result def ramchangeCB(self, screen): while 1: (button, result) = ListboxChoiceWindow(screen, _("Video RAM"), _("Please select the amount of video RAM present " "on your video card. " "Choose '%s' to reset the selection to " "the amount the installer detected on your " "card.") % (_("Default")) , self.ramlist, [ TEXT_OK_BUTTON, (_("Default"), "default")], scroll = 1, height = 7, help = "videocardsel", default = self.selectedRam) if button == 'default': self.selectedRam = self.origRam else: break self.selectedRam = result def __call__(self, screen, dispatch, xconfig, videocard, intf): self.dispatch = dispatch self.videocard = videocard self.xconfig = xconfig self.xconfig.filterModesByMemory () # setup database and list of possible cards self.cards = self.videocard.cardsDB() self.cardslist = self.cards.keys() self.cardslist.sort() for card in Videocard_blacklist: try: self.cardslist.remove(card) except: pass self.ramlist = [] for ram in self.videocard.possible_ram_sizes(): self.ramlist.append(str(ram)) carddata = self.videocard.primaryCard().getCardData(dontResolve=1) if carddata: self.selectedCard = self.findCardInList(carddata["NAME"]) else: self.selectedCard = None carddata = self.videocard.primaryCard(useProbed=1).getCardData(dontResolve=1) if carddata: self.origCard = self.findCardInList(carddata["NAME"]) else: self.origCard = None try: vidRam = string.atoi(self.videocard.primaryCard().getVideoRam()) except: vidRam = 1024 self.selectedRam = self.videocard.index_closest_ram_size(vidRam) try: vidRam = string.atoi(self.videocard.primaryCard(useProbed=1).getVideoRam()) except: vidRam = 1024 count = 0 self.origRam = self.videocard.index_closest_ram_size(vidRam) skipx = 0 while 1: bb = ButtonBar (screen, (TEXT_OK_BUTTON, (_("Skip X Configuration"), "skipx"), TEXT_BACK_BUTTON)) toplevel = GridFormHelp (screen, _("Video Card Configuration"), "videocard", 1, 5) text = _("Select the video card and video RAM for your system.") videogrid = Grid(3, 2) label = Label(_("Video Card:")) videogrid.setField (label, 0, 0, (0, 0, 0, 1), anchorLeft = 1) if self.selectedCard != None: cardlbl = self.cardslist[self.selectedCard] else: cardlbl = _("Unknown card") cardlabel = Textbox(28, 1, cardlbl) videogrid.setField (cardlabel, 1, 0, (0, 0, 0, 1), anchorLeft = 1) cardchangebutton = CompactButton(_("Change")) videogrid.setField (cardchangebutton, 2, 0, (0, 0, 0, 1), anchorLeft = 1) label = Label(_("Video RAM:")) videogrid.setField (label, 0, 1, (0, 0, 0, 0), anchorLeft = 1) ramlabel = Textbox(12, 1, self.ramlist[self.selectedRam]) videogrid.setField (ramlabel, 1, 1, (0, 0, 0, 0), anchorLeft = 1) ramchangebutton = CompactButton(_("Change")) videogrid.setField (ramchangebutton, 2, 1, (0, 0, 0, 0), anchorLeft = 1) toplevel.add(TextboxReflowed(60, text), 0, 0, (0, 0, 0, 0)) toplevel.add(videogrid, 0, 1, (0, 1, 0, 1), growx = 1) toplevel.add(bb, 0, 4, (0, 0, 0, 0), growx = 1) result = toplevel.run () rc = bb.buttonPressed (result) if rc == TEXT_BACK_CHECK: screen.popWindow() return INSTALL_BACK elif rc == TEXT_OK_CHECK or result == TEXT_F12_CHECK: # we're done # see if they have not specified card yet if self.selectedCard == None: intf.messageWindow(_("Unspecified video card"), _("You need to pick a video card before " "X configuration can continue. If you " "want to skip X configuration entirely " "choose the 'Skip X Configuration' button.")) continue break elif rc == "skipx": skipx = 1 break elif result == cardchangebutton: self.cardchangeCB(screen) elif result == ramchangebutton: self.ramchangeCB(screen) screen.popWindow() screen.popWindow() if skipx == 1: self.dispatch.skipStep("monitor") self.dispatch.skipStep("xcustom") self.dispatch.skipStep("writexconfig") self.xconfig.skipx = 1 return INSTALL_OK else: self.dispatch.skipStep("monitor", skip = 0) self.dispatch.skipStep("xcustom", skip = 0) self.dispatch.skipStep("writexconfig", skip = 0) self.xconfig.skipx = 0 # store selected videocard selection = self.cards[self.cardslist[self.selectedCard]] primary_card = self.videocard.primaryCard() primary_card.setCardData(selection) primary_card.setDevID (selection["NAME"]) primary_card.setDescription (selection["NAME"]) # pull out resolved version of card data card_data = primary_card.getCardData() if (card_data.has_key("DRIVER") and not card_data.has_key("UNSUPPORTED")): server = "XFree86" else: server = "XF86_" + card_data["SERVER"] primary_card.setXServer(server) # store selected ram vidram = self.videocard.possible_ram_sizes()[self.selectedRam] self.videocard.primaryCard().setVideoRam(str(vidram)) self.xconfig.filterModesByMemory () return INSTALL_OK