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|
#
# netconfig_text.py: Configure a network interface now.
#
# Copyright (C) 2008 Red Hat, Inc.
# All rights reserved.
#
# This program is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation; either version 2 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
#
# Author(s): Chris Lumens <clumens@redhat.com>
# David Cantrell <dcantrell@redhat.com>
#
from pyanaconda import isys
from pyanaconda import network
from snack import *
from constants_text import *
import gettext
_ = lambda x: gettext.ldgettext("anaconda", x)
class NetworkConfiguratorText:
def _handleIPError(self, field, errmsg):
self.anaconda.intf.messageWindow(_("Error With Data"),
_("An error occurred converting the "
"value entered for "
"\"%(field)s\":\n%(errmsg)s") \
% {'field': field, 'errmsg': errmsg})
def _handleIPMissing(self, field):
self.anaconda.intf.messageWindow(_("Error With Data"),
_("A value is required for the field %s") % field)
def __init__(self, screen, anaconda):
self.screen = screen
self.anaconda = anaconda
self.netdevs = self.anaconda.network.netdevices
self._initValues()
def _initValues(self):
self.ipv4Selected = 1
self.ipv6Selected = 1
self.ipv4Method = "v4dhcp"
self.ipv6Method = "v6auto"
self.ipv4Address = ""
self.ipv4Prefix = ""
self.ipv4Gateway = ""
self.ipv4Nameserver = ""
self.ipv6Address = ""
self.ipv6Prefix = ""
self.ipv6Gateway = ""
self.ipv6Nameserver = ""
def run(self):
dev_list = []
selected_devname = None
devnames = self.netdevs.keys()
devnames.sort()
# Preselect device set in kickstart
ksdevice = self.anaconda.network.getKSDevice()
if ksdevice:
ksdevice = ksdevice.iface
for devname in devnames:
hwaddr = self.netdevs[devname].get("HWADDR")
if hwaddr:
desc = "%s - %.50s" % (devname, hwaddr)
else:
desc = devname
if selected_devname is None:
selected_devname = devname
if ksdevice and ksdevice == devname:
selected_devname = devname
dev_list.append((desc, devname))
while True:
w = self.deviceSelectionForm(dev_list, selected_devname)
result = w.run()
button = w.buttons.buttonPressed(result)
if button == TEXT_BACK_CHECK:
self.screen.popWindow()
return INSTALL_BACK
selected_devname = self.interfaceList.current()
while True:
w = self.configForm(selected_devname)
result = w.run()
button = w.buttons.buttonPressed(result)
if button == TEXT_BACK_CHECK:
self.screen.popWindow()
self.screen.popWindow()
break
self._readValues()
if (self._checkValues() and
self._applyValues(selected_devname)):
self.screen.popWindow()
self.screen.popWindow()
return INSTALL_OK
else:
self.screen.popWindow()
def deviceSelectionForm(self, dev_list, preselected_dev=None):
grid = GridFormHelp(self.screen, _("Enable network interface"), "netselection",
1, 9)
tb = TextboxReflowed(60, _("This requires that you have an active "
"network connection during the installation "
"process. Please select network "
"interface to configure."))
grid.add(tb, 0, 0, anchorLeft = 1, padding = (0, 0, 0, 1))
self.interfaceList = Listbox(3, scroll = 1, returnExit = 0)
for (desc, dev) in dev_list:
self.interfaceList.append(desc, dev)
if preselected_dev:
self.interfaceList.setCurrent(preselected_dev)
grid.add(self.interfaceList, 0, 1, padding = (0, 0, 0, 1))
grid.buttons = ButtonBar(self.screen, [TEXT_OK_BUTTON, TEXT_BACK_BUTTON] )
grid.add(grid.buttons, 0, 2, anchorLeft = 1, growx = 1)
return grid
def configForm(self, devname):
# Create device configuration screen
grid = GridFormHelp(self.screen, _("Enable network interface"), "netconfig",
1, 13)
tb = TextboxReflowed(60, _("Configure interface %s "
"to be used during installation process.")
% devname)
grid.add(tb, 0, 0, anchorLeft = 1, padding = (0, 0, 0, 1))
self.ipv4Checkbox = Checkbox(_("Enable IPv4 Support"),
isOn=self.ipv4Selected)
grid.add(self.ipv4Checkbox, 0, 1, anchorLeft = 1, padding = (0, 0, 0, 0), growx = 1)
self.v4radio = RadioGroup()
self.v4radio_auto = self.v4radio.add(_("Dynamic IP configuration (DHCP)"),
"v4dhcp",
self.ipv4Method=="v4dhcp")
self.v4radio_manual = self.v4radio.add(_("Manual Configuration"),
"v4manual",
self.ipv4Method=="v4manual")
grid.add(self.v4radio_auto, 0, 2, anchorLeft = 1, padding = (2, 0, 0, 0), growx = 1)
grid.add(self.v4radio_manual, 0, 3, anchorLeft = 1, padding = (2, 0, 0, 0), growx = 1)
ipv4Grid = Grid(4, 3)
ipv4Grid.setField(Label(_("IPv4 Address:")), 0, 0, padding = (0, 0, 1, 0),
anchorLeft = 1)
self.ipv4AddressEntry = Entry(20, scroll=1)
self.ipv4AddressEntry.set(self.ipv4Address)
ipv4Grid.setField(self.ipv4AddressEntry, 1, 0)
ipv4Grid.setField(Label("/"), 2, 0)
self.ipv4PrefixEntry = Entry(3, scroll=0)
self.ipv4PrefixEntry.set(self.ipv4Prefix)
ipv4Grid.setField(self.ipv4PrefixEntry, 3, 0)
ipv4Grid.setField(Label(_("Gateway:")), 0, 1, padding = (0, 0, 0, 0),
anchorLeft = 1)
self.ipv4GatewayEntry = Entry(20, scroll=1)
self.ipv4GatewayEntry.set(self.ipv4Gateway)
ipv4Grid.setField(self.ipv4GatewayEntry, 1, 1)
ipv4Grid.setField(Label(_("Nameserver:")), 0, 2, padding = (0, 0, 0, 0),
anchorLeft = 1)
self.ipv4NameserverEntry = Entry(20, scroll=1)
self.ipv4NameserverEntry.set(self.ipv4Nameserver)
ipv4Grid.setField(self.ipv4NameserverEntry, 1, 2)
grid.add(ipv4Grid, 0, 4, anchorLeft = 1, padding = (6, 0, 0, 0))
self.ipv6Checkbox = Checkbox(_("Enable IPv6 Support"),
isOn=self.ipv6Selected)
grid.add(self.ipv6Checkbox, 0, 5, anchorLeft = 1, padding = (0, 0, 0, 0), growx = 1)
self.v6radio = RadioGroup()
self.v6radio_auto = self.v6radio.add(_("Automatic neighbor discovery"),
"v6auto",
self.ipv6Method=="v6auto")
self.v6radio_dhcp = self.v6radio.add(_("Dynamic IP Configuration (DHCPv6)"),
"v6dhcp",
self.ipv6Method=="v6dhcp")
self.v6radio_manual = self.v6radio.add(_("Manual Configuration"),
"v6manual",
self.ipv6Method=="v6manual")
grid.add(self.v6radio_auto, 0, 6, anchorLeft = 1, padding = (2, 0, 0, 0), growx = 1)
grid.add(self.v6radio_dhcp, 0, 7, anchorLeft = 1, padding = (2, 0, 0, 0), growx = 1)
grid.add(self.v6radio_manual, 0, 8, anchorLeft = 1, padding = (2, 0, 0, 0), growx = 1)
ipv6Grid = Grid(4, 3)
ipv6Grid.setField(Label(_("IPv6 Address:")), 0, 0, padding = (0, 0, 1, 0),
anchorLeft = 1)
self.ipv6AddressEntry = Entry(41, scroll=1)
self.ipv6AddressEntry.set(self.ipv6Address)
ipv6Grid.setField(self.ipv6AddressEntry, 1, 0)
ipv6Grid.setField(Label("/"), 2, 0)
self.ipv6PrefixEntry = Entry(4, scroll=0)
self.ipv6PrefixEntry.set(self.ipv6Prefix)
ipv6Grid.setField(self.ipv6PrefixEntry, 3, 0)
ipv6Grid.setField(Label(_("Gateway:")), 0, 1, padding = (0, 0, 0, 0),
anchorLeft = 1)
self.ipv6GatewayEntry = Entry(41, scroll=1)
self.ipv6GatewayEntry.set(self.ipv6Gateway)
ipv6Grid.setField(self.ipv6GatewayEntry, 1, 1)
ipv6Grid.setField(Label(_("Nameserver:")), 0, 2, padding = (0, 0, 0, 0),
anchorLeft = 1)
self.ipv6NameserverEntry = Entry(41, scroll=1)
self.ipv6NameserverEntry.set(self.ipv6Nameserver)
ipv6Grid.setField(self.ipv6NameserverEntry, 1, 2)
grid.add(ipv6Grid, 0, 9, anchorLeft = 1, padding = (6, 0, 0, 0))
grid.buttons = ButtonBar(self.screen, [TEXT_OK_BUTTON, TEXT_BACK_BUTTON])
grid.add(grid.buttons, 0, 10, anchorLeft = 1, growx = 1)
self.v4radio_manual.setCallback(self._ipv4MethodToggled)
self.v4radio_auto.setCallback(self._ipv4MethodToggled)
self.v6radio_manual.setCallback(self._ipv6MethodToggled)
self.v6radio_auto.setCallback(self._ipv6MethodToggled)
self.v6radio_dhcp.setCallback(self._ipv6MethodToggled)
self.ipv4Checkbox.setCallback(self._ipv4MethodToggled)
self.ipv6Checkbox.setCallback(self._ipv6MethodToggled)
self._ipv4MethodToggled()
self._ipv6MethodToggled()
return grid
def _readValues(self):
self.ipv4Selected = self.ipv4Checkbox.selected()
self.ipv6Selected = self.ipv6Checkbox.selected()
self.ipv4Method = self.v4radio.getSelection()
self.ipv6Method = self.v6radio.getSelection()
self.ipv4Address = self.ipv4AddressEntry.value()
self.ipv4Prefix = self.ipv4PrefixEntry.value()
self.ipv4Gateway = self.ipv4GatewayEntry.value()
self.ipv4Nameserver = self.ipv4NameserverEntry.value()
self.ipv6Address = self.ipv6AddressEntry.value()
self.ipv6Prefix = self.ipv6PrefixEntry.value()
self.ipv6Gateway = self.ipv6GatewayEntry.value()
self.ipv6Nameserver = self.ipv6NameserverEntry.value()
def _checkValues(self):
if not self.ipv4Selected and not self.ipv6Selected:
self.anaconda.intf.messageWindow(_("Missing protocol"),
_("You must select at least one protocol version"))
return False
if self.ipv4Selected:
if self.ipv4Method == "v4manual":
try:
network.sanityCheckIPString(self.ipv4Address)
except network.IPMissing as msg:
self._handleIPMissing(_("IPv4 Address"))
return False
except network.IPError as msg:
self._handleIPError(_("IPv4 Address"), msg)
return False
if not self.ipv4Prefix:
self._handleIPMissing(_("IPv4 Prefix"))
return False
elif (int(self.ipv4Prefix) < 0 or
int(self.ipv4Prefix) > 32):
msg = _("IPv4 CIDR prefix must be between 0 and 32.")
self._handleIPError(_("IPv4 Prefix"), msg)
return False
if self.ipv4Gateway:
try:
network.sanityCheckIPString(self.ipv4Gateway)
except network.IPError as msg:
self._handleIPError(_("IPv4 Gateway"), msg)
return False
if self.ipv4Nameserver:
for addr in self.ipv4Nameserver.split(','):
addr.split()
try:
network.sanityCheckIPString(addr)
except network.IPError as msg:
self._handleIPError(_("IPv4 Nameserver"), msg)
return False
if self.ipv6Selected:
if self.ipv6Method == "v6manual":
try:
network.sanityCheckIPString(self.ipv6Address)
except network.IPMissing as msg:
self._handleIPMissing(_("IPv6 Address"))
return False
except network.IPError as msg:
self._handleIPError(_("IPv6 Address"), msg)
return False
if not self.ipv6Prefix:
self._handleIPMissing(_("IPv6 Prefix"))
return False
elif (int(self.ipv6Prefix) < 0 or
int(self.ipv6Prefix) > 128):
msg = _("IPv6 CIDR prefix must be between 0 and 128.")
self._handleIPError(_("IPv6 Prefix"), msg)
return False
if self.ipv6Gateway:
try:
network.sanityCheckIPString(self.ipv6Gateway)
except network.IPError as msg:
self._handleIPError(_("IPv6 Gateway"), msg)
return False
if self.ipv6Nameserver:
for addr in self.ipv6Nameserver.split(','):
addr.split()
try:
network.sanityCheckIPString(addr)
except network.IPError as msg:
self._handleIPError(_("IPv6 Nameserver"), msg)
return False
return True
def _applyValues(self, devname):
"""Activates device devname.
Returns True in case of success, False if failed.
"""
dev = self.netdevs[devname]
nameservers = ''
if self.ipv4Selected:
if self.ipv4Method == "v4dhcp":
dev.set(("BOOTPROTO", "dhcp"))
elif self.ipv4Method == "v4manual":
dev.set(("BOOTPROTO", "static"))
dev.set(("IPADDR", self.ipv4Address))
dev.set(("PREFIX", self.ipv4Prefix))
if self.ipv4Gateway:
dev.set(("GATEWAY", self.ipv4Gateway))
if self.ipv4Nameserver:
nameservers += self.ipv4Nameserver
else:
dev.unset("BOOTPROTO")
dev.unset("IPADDR")
dev.unset("PREFIX")
dev.unset("GATEWAY")
if self.ipv6Selected:
dev.set(("IPV6INIT", "yes"))
if self.ipv6Method == "v6auto":
dev.set(("IPV6_AUTOCONF", "yes"))
elif self.ipv6Method == "v6dhcp":
dev.set(("IPV6_AUTOCONF", "no"))
dev.set(("DHCPV6C", "yes"))
elif self.ipv6Method == "v6manual":
dev.set(("IPV6_AUTOCONF", "no"))
dev.set(("IPV6ADDR", "%s/%s" % (self.ipv6Address,
self.ipv6Prefix)))
if self.ipv6Gateway:
dev.set(("IPV6_DEFAULTGW", self.ipv6Gateway))
if self.ipv6Nameserver:
if nameservers:
nameservers += ','
nameservers += self.ipv6Nameserver
else:
dev.set(("IPV6INIT", "no"))
self.anaconda.network.unsetDNS(devname)
if nameservers:
self.anaconda.network.setDNS(nameservers, devname)
dev.set(('ONBOOT', 'yes'))
w = self.anaconda.intf.waitWindow(_("Configuring Network Interfaces"), _("Waiting for NetworkManager"))
result = self.anaconda.network.bringUp()
w.pop()
if not result:
self.anaconda.intf.messageWindow(_("Network Error"),
_("There was an error configuring "
"network device %s") % dev.iface)
dev.set(("ONBOOT", "no"))
return False
return True
def _ipv4MethodToggled(self, *args):
if (self.v4radio.getSelection() == "v4manual" and
self.ipv4Checkbox.selected()):
flag = FLAGS_RESET
else:
flag = FLAGS_SET
self.ipv4AddressEntry.setFlags(FLAG_DISABLED, flag)
self.ipv4PrefixEntry.setFlags(FLAG_DISABLED, flag)
self.ipv4GatewayEntry.setFlags(FLAG_DISABLED, flag)
self.ipv4NameserverEntry.setFlags(FLAG_DISABLED, flag)
# Update flags for radio buttons based on whether ipv4 is selected
if self.ipv4Checkbox.selected():
self.v4radio_auto.w.checkboxSetFlags(FLAG_DISABLED, FLAGS_RESET)
self.v4radio_manual.w.checkboxSetFlags(FLAG_DISABLED, FLAGS_RESET)
else:
self.v4radio_auto.w.checkboxSetFlags(FLAG_DISABLED, FLAGS_SET)
self.v4radio_manual.w.checkboxSetFlags(FLAG_DISABLED, FLAGS_SET)
def _ipv6MethodToggled(self, *args):
if (self.v6radio.getSelection() == "v6manual" and
self.ipv6Checkbox.selected()):
flag = FLAGS_RESET
else:
flag = FLAGS_SET
self.ipv6AddressEntry.setFlags(FLAG_DISABLED, flag)
self.ipv6PrefixEntry.setFlags(FLAG_DISABLED, flag)
self.ipv6GatewayEntry.setFlags(FLAG_DISABLED, flag)
self.ipv6NameserverEntry.setFlags(FLAG_DISABLED, flag)
# Update flags for radio buttons based on whether ipv6 is selected
if self.ipv6Checkbox.selected():
self.v6radio_auto.w.checkboxSetFlags(FLAG_DISABLED, FLAGS_RESET)
self.v6radio_dhcp.w.checkboxSetFlags(FLAG_DISABLED, FLAGS_RESET)
self.v6radio_manual.w.checkboxSetFlags(FLAG_DISABLED, FLAGS_RESET)
else:
self.v6radio_auto.w.checkboxSetFlags(FLAG_DISABLED, FLAGS_SET)
self.v6radio_dhcp.w.checkboxSetFlags(FLAG_DISABLED, FLAGS_SET)
self.v6radio_manual.w.checkboxSetFlags(FLAG_DISABLED, FLAGS_SET)
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