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qubes-installer-qubes-os/anaconda/pyanaconda/network.py
Marek Marczykowski-Górecki f73b3741f0 Update anaconda to 20.25.16 
Apply result of "git diff anaconda-18.37.11-1..anaconda-20.25.16-1" and
resolve conflicts.
2014-04-08 05:50:31 +02:00

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#
# network.py - network configuration install data
#
# Copyright (C) 2001, 2002, 2003, 2004, 2005, 2006, 2007 Red Hat, Inc.
# 2008, 2009
#
# 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): Matt Wilson <ewt@redhat.com>
# Erik Troan <ewt@redhat.com>
# Mike Fulbright <msf@redhat.com>
# Brent Fox <bfox@redhat.com>
# David Cantrell <dcantrell@redhat.com>
# Radek Vykydal <rvykydal@redhat.com>
import string
import shutil
from pyanaconda import iutil
import socket
import os
import time
import threading
import re
import dbus
import IPy
import uuid
import itertools
from pyanaconda.simpleconfig import SimpleConfigFile
from blivet.devices import FcoeDiskDevice, iScsiDiskDevice
import blivet.arch
from pyanaconda import nm
from pyanaconda import constants
from pyanaconda.flags import flags, can_touch_runtime_system
from pyanaconda.i18n import _
from gi.repository import NetworkManager
import logging
log = logging.getLogger("anaconda")
sysconfigDir = "/etc/sysconfig"
netscriptsDir = "%s/network-scripts" % (sysconfigDir)
networkConfFile = "%s/network" % (sysconfigDir)
hostnameFile = "/etc/hostname"
ipv6ConfFile = "/etc/sysctl.d/anaconda.conf"
ifcfgLogFile = "/tmp/ifcfg.log"
DEFAULT_HOSTNAME = "localhost.localdomain"
# part of a valid hostname between two periods (cannot start nor end with '-')
# for more info about '(?!-)' and '(?<!-)' see 're' module documentation
HOSTNAME_PART_RE = re.compile(r"(?!-)[A-Z\d-]{1,63}(?<!-)$", re.IGNORECASE)
ifcfglog = None
network_connected = None
network_connected_condition = threading.Condition()
def setup_ifcfg_log():
# Setup special logging for ifcfg NM interface
from pyanaconda import anaconda_log
global ifcfglog
logger = logging.getLogger("ifcfg")
logger.setLevel(logging.DEBUG)
anaconda_log.logger.addFileHandler(ifcfgLogFile, logger, logging.DEBUG)
if os.access("/dev/tty3", os.W_OK):
anaconda_log.logger.addFileHandler("/dev/tty3", logger,
anaconda_log.DEFAULT_TTY_LEVEL,
anaconda_log.TTY_FORMAT,
autoLevel=True)
anaconda_log.logger.forwardToSyslog(logger)
ifcfglog = logging.getLogger("ifcfg")
def check_ip_address(address, version=None):
try:
_ip, ver = IPy.parseAddress(address)
except ValueError:
return False
if version and version == ver:
return True
def sanityCheckHostname(hostname):
"""
Check if the given string is (syntactically) a valid hostname.
:param hostname: a string to check
:returns: a pair containing boolean value (valid or invalid) and
an error message (if applicable)
:rtype: (bool, str)
"""
if not hostname:
return (False, _("Hostname cannot be None or an empty string."))
if len(hostname) > 255:
return (False, _("Hostname must be 255 or fewer characters in length."))
validStart = string.ascii_letters + string.digits
if hostname[0] not in validStart:
return (False, _("Hostname must start with a valid character in the "
"ranges 'a-z', 'A-Z', or '0-9'"))
if hostname.endswith("."):
# hostname can end with '.', but the regexp used below would not match
hostname = hostname[:-1]
if not all(HOSTNAME_PART_RE.match(part) for part in hostname.split(".")):
return (False, _("Hostnames can only contain the characters 'a-z', "
"'A-Z', '0-9', '-', or '.', parts between periods "
"must contain something and cannot start or end with "
"'-'."))
return (True, "")
# Return a list of IP addresses for all active devices.
def getIPs():
ips = []
for devname in nm.nm_activated_devices():
try:
ips += (nm.nm_device_ip_addresses(devname, version=4) +
nm.nm_device_ip_addresses(devname, version=6))
except (dbus.DBusException, ValueError) as e:
log.warning("Got an exception trying to get the ip addr "
"of %s: %s", devname, e)
return ips
# Return the first real non-local IP we find
def getFirstRealIP():
for ip in getIPs():
if ip not in ("127.0.0.1", "::1"):
return ip
return None
def netmask2prefix(netmask):
prefix = 0
while prefix < 33:
if (prefix2netmask(prefix) == netmask):
return prefix
prefix += 1
return prefix
def prefix2netmask(prefix):
""" Convert prefix (CIDR bits) to netmask """
_bytes = []
for _i in range(4):
if prefix >= 8:
_bytes.append(255)
prefix -= 8
else:
_bytes.append(256 - 2**(8-prefix))
prefix = 0
netmask = ".".join(str(byte) for byte in _bytes)
return netmask
# Try to determine what the hostname should be for this system
def getHostname():
hn = None
# First address (we prefer ipv4) of last device (as it used to be) wins
for dev in nm.nm_activated_devices():
addrs = (nm.nm_device_ip_addresses(dev, version=4) +
nm.nm_device_ip_addresses(dev, version=6))
for ipaddr in addrs:
try:
hinfo = socket.gethostbyaddr(ipaddr)
except socket.herror as e:
log.debug("Exception caught trying to get host name of %s: %s", ipaddr, e)
else:
if len(hinfo) == 3:
hn = hinfo[0]
break
if not hn or hn in ('(none)', 'localhost', 'localhost.localdomain'):
hn = socket.gethostname()
if not hn or hn in ('(none)', 'localhost', 'localhost.localdomain'):
hn = DEFAULT_HOSTNAME
return hn
def logIfcfgFile(path, message=""):
content = ""
if os.access(path, os.R_OK):
f = open(path, 'r')
content = f.read()
f.close()
else:
content = "file not found"
ifcfglog.debug("%s%s:\n%s", message, path, content)
def _ifcfg_files(directory):
rv = []
for name in os.listdir(directory):
if name.startswith("ifcfg-"):
if name == "ifcfg-lo":
continue
rv.append(os.path.join(directory,name))
return rv
def logIfcfgFiles(message=""):
ifcfglog.debug("content of files (%s):", message)
for path in _ifcfg_files(netscriptsDir):
ifcfglog.debug("%s:", path)
with open(path, "r") as f:
for line in f:
ifcfglog.debug(" %s", line.strip())
ifcfglog.debug("all settings: %s", nm.nm_get_all_settings())
class IfcfgFile(SimpleConfigFile):
def __init__(self, filename):
SimpleConfigFile.__init__(self, always_quote=True, filename=filename)
self._dirty = False
def read(self, filename=None):
self.reset()
ifcfglog.debug("IfcfFile.read %s", self.filename)
SimpleConfigFile.read(self)
self._dirty = False
def write(self, filename=None, use_tmp=False):
if self._dirty or filename:
# ifcfg-rh is using inotify IN_CLOSE_WRITE event so we don't use
# temporary file for new configuration
ifcfglog.debug("IfcfgFile.write %s:\n%s", self.filename, self.__str__())
SimpleConfigFile.write(self, filename, use_tmp=use_tmp)
self._dirty = False
def set(self, *args):
for (key, data) in args:
if self.get(key) != data:
break
else:
return
ifcfglog.debug("IfcfgFile.set %s: %s", self.filename, args)
SimpleConfigFile.set(self, *args)
self._dirty = True
def unset(self, *args):
for key in args:
if self.get(key):
self._dirty = True
break
else:
return
ifcfglog.debug("IfcfgFile.unset %s: %s", self.filename, args)
SimpleConfigFile.unset(self, *args)
def dumpMissingDefaultIfcfgs():
"""
Dump missing default ifcfg file for wired devices.
For default auto connections created by NM upon start - which happens
in case of missing ifcfg file - rename the connection using device name
and dump its ifcfg file. (For server, default auto connections will
be turned off in NetworkManager.conf.)
The connection id (and consequently ifcfg file) is set to device name.
Returns list of devices for which ifcfg file was dumped.
"""
rv = []
for devname in nm.nm_devices():
# for each ethernet device
# FIXME add more types (infiniband, bond...?)
if not nm.nm_device_type_is_ethernet(devname):
continue
# check that device has connection without ifcfg file
try:
con_uuid = nm.nm_device_setting_value(devname, "connection", "uuid")
except nm.SettingsNotFoundError:
continue
if find_ifcfg_file_of_device(devname):
continue
try:
nm.nm_update_settings_of_device(devname, [['connection', 'id', devname, None]])
log.debug("network: dumping ifcfg file for default autoconnection on %s", devname)
nm.nm_update_settings_of_device(devname, [['connection', 'autoconnect', False, None]])
log.debug("network: setting autoconnect of %s to False" , devname)
except nm.SettingsNotFoundError:
log.debug("network: no ifcfg file for %s", devname)
rv.append(devname)
return rv
# get a kernel cmdline string for dracut needed for access to storage host
def dracutSetupArgs(networkStorageDevice):
if networkStorageDevice.nic == "default" or ":" in networkStorageDevice.nic:
nic = ifaceForHostIP(networkStorageDevice.host_address)
if not nic:
return ""
else:
nic = networkStorageDevice.nic
if nic not in nm.nm_devices():
log.error('Unknown network interface: %s', nic)
return ""
ifcfg_path = find_ifcfg_file_of_device(nic)
if not ifcfg_path:
log.error("dracutSetupArgs: can't find ifcfg file for %s", nic)
return ""
ifcfg = IfcfgFile(ifcfg_path)
ifcfg.read()
return dracutBootArguments(nic,
ifcfg,
networkStorageDevice.host_address,
getHostname())
def dracutBootArguments(devname, ifcfg, storage_ipaddr, hostname=None):
netargs = set()
if ifcfg.get('BOOTPROTO') == 'ibft':
netargs.add("ip=ibft")
elif storage_ipaddr:
if hostname is None:
hostname = ""
# if using ipv6
if ':' in storage_ipaddr:
if ifcfg.get('DHCPV6C') == "yes":
# XXX combination with autoconf not yet clear,
# support for dhcpv6 is not yet implemented in NM/ifcfg-rh
netargs.add("ip=%s:dhcp6" % devname)
elif ifcfg.get('IPV6_AUTOCONF') == "yes":
netargs.add("ip=%s:auto6" % devname)
elif ifcfg.get('IPV6ADDR'):
ipaddr = "[%s]" % ifcfg.get('IPV6ADDR')
if ifcfg.get('IPV6_DEFAULTGW'):
gateway = "[%s]" % ifcfg.get('IPV6_DEFAULTGW')
else:
gateway = ""
netargs.add("ip=%s::%s:%s:%s:%s:none" % (ipaddr, gateway,
ifcfg.get('PREFIX'), hostname, devname))
else:
if iutil.lowerASCII(ifcfg.get('bootproto')) == 'dhcp':
netargs.add("ip=%s:dhcp" % devname)
else:
if ifcfg.get('GATEWAY'):
gateway = ifcfg.get('GATEWAY')
else:
gateway = ""
netmask = ifcfg.get('netmask')
prefix = ifcfg.get('prefix')
if not netmask and prefix:
netmask = prefix2netmask(int(prefix))
netargs.add("ip=%s::%s:%s:%s:%s:none" % (ifcfg.get('ipaddr'),
gateway, netmask, hostname, devname))
hwaddr = ifcfg.get("HWADDR")
if hwaddr:
netargs.add("ifname=%s:%s" % (devname, hwaddr.lower()))
nettype = ifcfg.get("NETTYPE")
subchannels = ifcfg.get("SUBCHANNELS")
if blivet.arch.isS390() and nettype and subchannels:
znet = "rd.znet=%s,%s" % (nettype, subchannels)
options = ifcfg.get("OPTIONS").strip("'\"")
if options:
options = filter(lambda x: x != '', options.split(' '))
znet += ",%s" % (','.join(options))
netargs.add(znet)
return netargs
def _get_ip_setting_values_from_ksdata(networkdata):
values = []
# ipv4 settings
method4 = "auto"
if networkdata.bootProto == "static":
method4 = "manual"
values.append(["ipv4", "method", method4, "s"])
if method4 == "manual":
addr4 = nm.nm_ipv4_to_dbus_int(networkdata.ip)
gateway4 = nm.nm_ipv4_to_dbus_int(networkdata.gateway)
prefix4 = netmask2prefix(networkdata.netmask)
values.append(["ipv4", "addresses", [[addr4, prefix4, gateway4]], "aau"])
# ipv6 settings
if networkdata.noipv6:
method6 = "ignore"
else:
if not networkdata.ipv6:
method6 = "auto"
elif networkdata.ipv6 == "auto":
method6 = "auto"
elif networkdata.ipv6 == "dhcp":
method6 = "dhcp"
else:
method6 = "manual"
values.append(["ipv6", "method", method6, "s"])
if method6 == "manual":
addr6, _slash, prefix6 = networkdata.ipv6.partition("/")
if prefix6:
prefix6 = int(prefix6)
else:
prefix6 = 64
addr6 = nm.nm_ipv6_to_dbus_ay(addr6)
if networkdata.ipv6gateway:
gateway6 = nm.nm_ipv6_to_dbus_ay(networkdata.ipv6gateway)
else:
gateway6 = [0] * 16
values.append(["ipv6", "addresses", [(addr6, prefix6, gateway6)], "a(ayuay)"])
# nameservers
nss4 = []
nss6 = []
if networkdata.nameserver:
for ns in networkdata.nameserver.split(","):
if ":" in ns:
nss6.append(nm.nm_ipv6_to_dbus_ay(ns))
else:
nss4.append(nm.nm_ipv4_to_dbus_int(ns))
values.append(["ipv4", "dns", nss4, "au"])
values.append(["ipv6", "dns", nss6, "aay"])
return values
def update_settings_with_ksdata(devname, networkdata):
new_values = _get_ip_setting_values_from_ksdata(networkdata)
new_values.append(['connection', 'autoconnect', networkdata.onboot, None])
uuid = nm.nm_device_setting_value(devname, "connection", "uuid")
nm.nm_update_settings_of_device(devname, new_values)
return uuid
def bond_options_ksdata_to_dbus(opts_str):
retval = {}
for option in opts_str.split(";" if ';' in opts_str else ","):
key, _sep, value = option.partition("=")
retval[key] = value
return retval
def add_connection_for_ksdata(networkdata, devname):
added_connections = []
con_uuid = str(uuid.uuid4())
values = _get_ip_setting_values_from_ksdata(networkdata)
# HACK preventing NM to autoactivate the connection
#values.append(['connection', 'autoconnect', networkdata.onboot, 'b'])
values.append(['connection', 'autoconnect', False, 'b'])
values.append(['connection', 'uuid', con_uuid, 's'])
# type "bond"
if networkdata.bondslaves:
# bond connection is autoactivated
values.append(['connection', 'type', 'bond', 's'])
values.append(['connection', 'id', devname, 's'])
values.append(['bond', 'interface-name', devname, 's'])
options = bond_options_ksdata_to_dbus(networkdata.bondopts)
values.append(['bond', 'options', options, 'a{ss}'])
for i, slave in enumerate(networkdata.bondslaves.split(","), 1):
#slave_name = "%s slave %d" % (devname, i)
slave_name = slave
svalues = []
suuid = str(uuid.uuid4())
svalues.append(['connection', 'uuid', suuid, 's'])
svalues.append(['connection', 'id', slave_name, 's'])
svalues.append(['connection', 'slave-type', 'bond', 's'])
svalues.append(['connection', 'master', devname, 's'])
svalues.append(['connection', 'type', '802-3-ethernet', 's'])
mac = nm.nm_device_hwaddress(slave)
mac = [int(b, 16) for b in mac.split(":")]
svalues.append(['802-3-ethernet', 'mac-address', mac, 'ay'])
# disconnect slaves
if networkdata.activate:
nm.nm_disconnect_device(slave)
# remove ifcfg file
ifcfg_path = find_ifcfg_file_of_device(slave)
if ifcfg_path and os.access(ifcfg_path, os.R_OK):
os.unlink(ifcfg_path)
nm.nm_add_connection(svalues)
added_connections.append((suuid, slave))
dev_spec = None
# type "team"
elif networkdata.teamslaves:
values.append(['connection', 'type', 'team', 's'])
values.append(['connection', 'id', devname, 's'])
values.append(['team', 'interface-name', devname, 's'])
values.append(['team', 'config', networkdata.teamconfig, 's'])
for _i, (slave, cfg) in enumerate(networkdata.teamslaves):
# assume ethernet, TODO: infiniband, wifi, vlan
#slave_name = "%s slave %d" % (devname, i)
slave_name = slave
svalues = []
suuid = str(uuid4())
svalues.append(['connection', 'uuid', suuid, 's'])
svalues.append(['connection', 'id', slave_name, 's'])
svalues.append(['connection', 'slave-type', 'team', 's'])
svalues.append(['connection', 'master', devname, 's'])
svalues.append(['connection', 'type', '802-3-ethernet', 's'])
mac = nm.nm_device_hwaddress(slave)
mac = [int(b, 16) for b in mac.split(":")]
svalues.append(['802-3-ethernet', 'mac-address', mac, 'ay'])
svalues.append(['team-port', 'config', cfg, 's'])
# disconnect slaves
if networkdata.activate:
nm.nm_disconnect_device(slave)
# remove ifcfg file
ifcfg_path = find_ifcfg_file_of_device(slave)
if ifcfg_path and os.access(ifcfg_path, os.R_OK):
os.unlink(ifcfg_path)
nm.nm_add_connection(svalues)
added_connections.append((suuid, slave))
dev_spec = None
# type "vlan"
elif networkdata.vlanid:
parent, _sep, _vlanid = devname.partition(".")
values.append(['vlan', 'parent', parent, 's'])
values.append(['connection', 'type', 'vlan', 's'])
values.append(['connection', 'id', devname, 's'])
values.append(['vlan', 'interface-name', devname, 's'])
values.append(['vlan', 'id', int(networkdata.vlanid), 'u'])
dev_spec = None
# type "802-3-ethernet"
else:
values.append(['connection', 'type', '802-3-ethernet', 's'])
values.append(['connection', 'id', devname, 's'])
mac = nm.nm_device_hwaddress(devname)
mac = [int(b, 16) for b in mac.split(":")]
values.append(['802-3-ethernet', 'mac-address', mac, 'ay'])
dev_spec = devname
nm.nm_add_connection(values)
added_connections.insert(0, (con_uuid, dev_spec))
return added_connections
def ksdata_from_ifcfg(devname):
if nm.nm_device_is_slave(devname):
return None
ifcfg_path = None
# Find ifcfg file for the device.
# If the device is active, use uuid of its active connection.
uuid = nm.nm_device_active_con_uuid(devname)
if uuid:
ifcfg_path = find_ifcfg_file([("UUID", uuid)])
else:
# If not, look it up by other values depending on its type
ifcfg_path = find_ifcfg_file_of_device(devname)
if not ifcfg_path:
return None
ifcfg = IfcfgFile(ifcfg_path)
ifcfg.read()
nd = ifcfg_to_ksdata(ifcfg, devname)
if not nd:
return None
if nm.nm_device_type_is_ethernet(devname):
nd.device = devname
elif nm.nm_device_type_is_wifi(devname):
nm.device = ""
elif nm.nm_device_type_is_bond(devname):
nd.device = devname
elif nm.nm_device_type_is_team(devname):
nd.device = devname
elif nm.nm_device_type_is_vlan(devname):
nd.device = devname.split(".")[0]
return nd
def ifcfg_to_ksdata(ifcfg, devname):
from pyanaconda.kickstart import AnacondaKSHandler
handler = AnacondaKSHandler()
kwargs = {}
# no network command for bond slaves
if ifcfg.get("MASTER"):
return None
# no network command for team slaves
if ifcfg.get("TEAM_MASTER"):
return None
# ipv4 and ipv6
if ifcfg.get("ONBOOT") and ifcfg.get("ONBOOT" ) == "no":
kwargs["onboot"] = False
if ifcfg.get('MTU') and ifcfg.get('MTU') != "0":
kwargs["mtu"] = ifcfg.get('MTU')
# ipv4
if not ifcfg.get('BOOTPROTO'):
kwargs["noipv4"] = True
else:
if iutil.lowerASCII(ifcfg.get('BOOTPROTO')) == 'dhcp':
kwargs["bootProto"] = "dhcp"
if ifcfg.get('DHCPCLASS'):
kwargs["dhcpclass"] = ifcfg.get('DHCPCLASS')
elif ifcfg.get('IPADDR'):
kwargs["bootProto"] = "static"
kwargs["ip"] = ifcfg.get('IPADDR')
netmask = ifcfg.get('NETMASK')
prefix = ifcfg.get('PREFIX')
if not netmask and prefix:
netmask = prefix2netmask(int(prefix))
if netmask:
kwargs["netmask"] = netmask
# note that --gateway is common for ipv4 and ipv6
if ifcfg.get('GATEWAY'):
kwargs["gateway"] = ifcfg.get('GATEWAY')
elif ifcfg.get('IPADDR0'):
kwargs["bootProto"] = "static"
kwargs["ip"] = ifcfg.get('IPADDR0')
prefix = ifcfg.get('PREFIX0')
if prefix:
netmask = prefix2netmask(int(prefix))
kwargs["netmask"] = netmask
# note that --gateway is common for ipv4 and ipv6
if ifcfg.get('GATEWAY0'):
kwargs["gateway"] = ifcfg.get('GATEWAY0')
# ipv6
if (not ifcfg.get('IPV6INIT') or
ifcfg.get('IPV6INIT') == "no"):
kwargs["noipv6"] = True
else:
if ifcfg.get('IPV6_AUTOCONF') in ("yes", ""):
kwargs["ipv6"] = "auto"
else:
if ifcfg.get('IPV6ADDR'):
kwargs["ipv6"] = ifcfg.get('IPV6ADDR')
if ifcfg.get('IPV6_DEFAULTGW') \
and ifcfg.get('IPV6_DEFAULTGW') != "::":
kwargs["ipv6gateway"] = ifcfg.get('IPV6_DEFAULTGW')
if ifcfg.get('DHCPV6C') == "yes":
kwargs["ipv6"] = "dhcp"
# ipv4 and ipv6
dnsline = ''
for key in ifcfg.info.keys():
if iutil.upperASCII(key).startswith('DNS'):
if dnsline == '':
dnsline = ifcfg.get(key)
else:
dnsline += "," + ifcfg.get(key)
if dnsline:
kwargs["nameserver"] = dnsline
if ifcfg.get("ETHTOOL_OPTS"):
kwargs["ethtool"] = ifcfg.get("ETHTOOL_OPTS")
if ifcfg.get("ESSID"):
kwargs["essid"] = ifcfg.get("ESSID")
# hostname
if ifcfg.get("DHCP_HOSTNAME"):
kwargs["hostname"] = ifcfg.get("DHCP_HOSTNAME")
# bonding
# FIXME: dracut has only BOND_OPTS
if ifcfg.get("BONDING_MASTER") == "yes" or ifcfg.get("TYPE") == "Bond":
slaves = get_bond_slaves_from_ifcfgs([devname, ifcfg.get("UUID")])
if slaves:
kwargs["bondslaves"] = ",".join(slaves)
bondopts = ifcfg.get("BONDING_OPTS")
if bondopts:
sep = ","
if sep in bondopts:
sep = ";"
kwargs["bondopts"] = sep.join(bondopts.split())
# vlan
if ifcfg.get("VLAN") == "yes" or ifcfg.get("TYPE") == "Vlan":
kwargs["device"] = ifcfg.get("PHYSDEV")
kwargs["vlanid"] = ifcfg.get("VLAN_ID")
# pylint: disable-msg=E1101
nd = handler.NetworkData(**kwargs)
# teaming
if ifcfg.get("TYPE") == "Team" or ifcfg.get("DEVICETYPE") == "Team":
slaves = get_team_slaves([devname, ifcfg.get("UUID")])
for dev, cfg in slaves:
nd.teamslaves.append((dev, cfg))
teamconfig = nm.nm_device_setting_value(devname, "team", "config")
if teamconfig:
nd.teamconfig = teamconfig
return nd
def hostname_ksdata(hostname):
from pyanaconda.kickstart import AnacondaKSHandler
handler = AnacondaKSHandler()
# pylint: disable-msg=E1101
return handler.NetworkData(hostname=hostname, bootProto="")
def find_ifcfg_file_of_device(devname, root_path=""):
ifcfg_path = None
if devname not in nm.nm_devices():
return None
if nm.nm_device_type_is_wifi(devname):
ssid = nm.nm_device_active_ssid(devname)
if ssid:
ifcfg_path = find_ifcfg_file([("ESSID", ssid)])
elif nm.nm_device_type_is_bond(devname):
ifcfg_path = find_ifcfg_file([("DEVICE", devname)])
elif nm.nm_device_type_is_team(devname):
ifcfg_path = find_ifcfg_file([("DEVICE", devname)])
elif nm.nm_device_type_is_vlan(devname):
ifcfg_path = find_ifcfg_file([("DEVICE", devname)])
elif nm.nm_device_type_is_ethernet(devname):
try:
hwaddr = nm.nm_device_hwaddress(devname)
except nm.PropertyNotFoundError:
hwaddr = None
if hwaddr:
hwaddr_check = lambda mac: mac.upper() == hwaddr.upper()
nonempty = lambda x: x
# slave configration created in GUI takes precedence
ifcfg_path = find_ifcfg_file([("HWADDR", hwaddr_check),
("MASTER", nonempty)],
root_path)
if not ifcfg_path:
ifcfg_path = find_ifcfg_file([("HWADDR", hwaddr_check),
("TEAM_MASTER", nonempty)],
root_path)
if not ifcfg_path:
ifcfg_path = find_ifcfg_file([("HWADDR", hwaddr_check)], root_path)
if not ifcfg_path:
ifcfg_path = find_ifcfg_file([("DEVICE", devname)], root_path)
return ifcfg_path
def find_ifcfg_file(values, root_path=""):
for filepath in _ifcfg_files(os.path.normpath(root_path+netscriptsDir)):
ifcfg = IfcfgFile(filepath)
ifcfg.read()
for key, value in values:
if callable(value):
if not value(ifcfg.get(key)):
break
else:
if ifcfg.get(key) != value:
break
else:
return filepath
return None
def get_bond_slaves_from_ifcfgs(master_specs):
"""List of slave device names of master specified by master_specs.
master_specs is a list containing device name of master (dracut)
and/or master's connection uuid
"""
slaves = []
for filepath in _ifcfg_files(netscriptsDir):
ifcfg = IfcfgFile(filepath)
ifcfg.read()
master = ifcfg.get("MASTER")
if master in master_specs:
device = ifcfg.get("DEVICE")
if device:
slaves.append(device)
else:
hwaddr = ifcfg.get("HWADDR")
for devname in nm.nm_devices():
try:
h = nm.nm_device_property(devname, "PermHwAddress")
except nm.PropertyNotFoundError:
log.debug("can't get PermHwAddress of devname %s", devname)
continue
if h.upper() == hwaddr.upper():
slaves.append(devname)
break
return slaves
# why not from ifcfg? because we want config json value without escapes
def get_team_slaves(master_specs):
"""List of slaves of master specified by master_specs (name, opts).
master_specs is a list containing device name of master (dracut)
and/or master's connection uuid
"""
slaves = []
for master in master_specs:
slave_settings = nm.nm_get_settings(master, "connection", "master")
for settings in slave_settings:
try:
cfg = settings["team-port"]["config"]
except KeyError:
cfg = ""
devname = settings["connection"].get("interface-name")
#nm-c-e doesn't save device name
# TODO: wifi, infiniband
if not devname:
ty = settings["connection"]["type"]
if ty == "802-3-ethernet":
hwaddr = settings["802-3-ethernet"]["mac-address"]
hwaddr = ":".join("%02X" % b for b in hwaddr)
devname = nm.nm_hwaddr_to_device_name(hwaddr)
if devname:
slaves.append((devname, cfg))
else:
uuid = settings["connection"].get("uuid")
log.debug("network: can't get team slave device name of %s", uuid)
return slaves
def ifaceForHostIP(host):
route = iutil.execWithCapture("ip", [ "route", "get", "to", host ])
if not route:
log.error("Could not get interface for route to %s", host)
return ""
routeInfo = route.split()
if routeInfo[0] != host or len(routeInfo) < 5 or \
"dev" not in routeInfo or routeInfo.index("dev") > 3:
log.error('Unexpected "ip route get to %s" reply: %s', host, routeInfo)
return ""
return routeInfo[routeInfo.index("dev") + 1]
def copyFileToPath(fileName, destPath='', overwrite=False):
if not os.path.isfile(fileName):
return False
destfile = os.path.join(destPath, fileName.lstrip('/'))
if (os.path.isfile(destfile) and not overwrite):
return False
if not os.path.isdir(os.path.dirname(destfile)):
iutil.mkdirChain(os.path.dirname(destfile))
shutil.copy(fileName, destfile)
return True
# /etc/sysconfig/network-scripts/ifcfg-*
# /etc/sysconfig/network-scripts/keys-*
# TODO: routing info from /etc/sysconfig/network-scripts?
def copyIfcfgFiles(destPath):
files = os.listdir(netscriptsDir)
for cfgFile in files:
if cfgFile.startswith(("ifcfg-","keys-")):
srcfile = os.path.join(netscriptsDir, cfgFile)
copyFileToPath(srcfile, destPath)
# /etc/dhcp/dhclient-DEVICE.conf
# TODORV: do we really don't want overwrite on live cd?
def copyDhclientConfFiles(destPath):
for devName in nm.nm_devices():
dhclientfile = os.path.join("/etc/dhcp/dhclient-%s.conf" % devName)
copyFileToPath(dhclientfile, destPath)
def ks_spec_to_device_name(ksspec=""):
if not ksspec:
ksspec = flags.cmdline.get('ksdevice', "")
ksdevice = ksspec
bootif_mac = ''
if ksdevice == 'bootif' and "BOOTIF" in flags.cmdline:
bootif_mac = flags.cmdline["BOOTIF"][3:].replace("-", ":").upper()
for dev in sorted(nm.nm_devices()):
# "eth0"
if ksdevice == dev:
break
# "link"
elif ksdevice == 'link':
try:
link_up = nm.nm_device_carrier(dev)
except ValueError as e:
log.debug("ks_spec_to_device_name: %s", e)
continue
if link_up:
ksdevice = dev
break
# "XX:XX:XX:XX:XX:XX" (mac address)
elif ':' in ksdevice:
try:
hwaddr = nm.nm_device_hwaddress(dev)
except ValueError as e:
log.debug("ks_spec_to_device_name: %s", e)
continue
if ksdevice.lower() == hwaddr.lower():
ksdevice = dev
break
# "bootif" and BOOTIF==XX:XX:XX:XX:XX:XX
elif ksdevice == 'bootif':
try:
hwaddr = nm.nm_device_hwaddress(dev)
except ValueError as e:
log.debug("ks_spec_to_device_name: %s", e)
continue
if bootif_mac.lower() == hwaddr.lower():
ksdevice = dev
break
return ksdevice
def set_hostname(hn):
if can_touch_runtime_system("set hostname", touch_live=True):
log.info("setting installation environment hostname to %s", hn)
iutil.execWithRedirect("hostnamectl", ["set-hostname", hn])
def write_hostname(rootpath, ksdata, overwrite=False):
cfgfile = os.path.normpath(rootpath + hostnameFile)
if (os.path.isfile(cfgfile) and not overwrite):
return False
f = open(cfgfile, "w")
f.write("%s\n" % ksdata.network.hostname)
f.close()
return True
def write_sysconfig_network(rootpath, ksdata, overwrite=False):
cfgfile = os.path.normpath(rootpath + networkConfFile)
if (os.path.isfile(cfgfile) and not overwrite):
return False
f = open(cfgfile, "w")
f.write("# Generated by anaconda\n")
f.write("NETWORKING=no\n")
f.close()
return True
def disableIPV6(rootpath):
cfgfile = os.path.normpath(rootpath + ipv6ConfFile)
if ('noipv6' in flags.cmdline
and all(nm.nm_device_setting_value(dev, "ipv6", "method") == "ignore"
for dev in nm.nm_devices() if nm.nm_device_type_is_ethernet(dev))):
log.info('Disabling ipv6 on target system')
with open(cfgfile, "a") as f:
f.write("# Anaconda disabling ipv6 (noipv6 option)\n")
f.write("net.ipv6.conf.all.disable_ipv6=1\n")
f.write("net.ipv6.conf.default.disable_ipv6=1\n")
def disableNMForStorageDevices(rootpath, storage):
for devname in nm.nm_devices():
if (usedByFCoE(devname, storage) or
usedByRootOnISCSI(devname, storage)):
ifcfg_path = find_ifcfg_file_of_device(devname, root_path=rootpath)
if not ifcfg_path:
log.warning("disableNMForStorageDevices: ifcfg file for %s not found",
devname)
continue
ifcfg = IfcfgFile(ifcfg_path)
ifcfg.read()
ifcfg.set(('NM_CONTROLLED', 'no'))
ifcfg.write()
log.info("network device %s used by storage will not be "
"controlled by NM", devname)
# sets ONBOOT=yes (and its mirror value in ksdata) for devices used by FCoE
def autostartFCoEDevices(rootpath, storage, ksdata):
for devname in nm.nm_devices():
if usedByFCoE(devname, storage):
ifcfg_path = find_ifcfg_file_of_device(devname, root_path=rootpath)
if not ifcfg_path:
log.warning("autoconnectFCoEDevices: ifcfg file for %s not found", devname)
continue
ifcfg = IfcfgFile(ifcfg_path)
ifcfg.read()
ifcfg.set(('ONBOOT', 'yes'))
ifcfg.write()
log.debug("setting ONBOOT=yes for network device %s used by fcoe", devname)
for nd in ksdata.network.network:
if nd.device == devname:
nd.onboot = True
break
def usedByFCoE(iface, storage):
for d in storage.devices:
if (isinstance(d, FcoeDiskDevice) and
d.nic == iface):
return True
return False
def usedByRootOnISCSI(iface, storage):
rootdev = storage.rootDevice
for d in storage.devices:
if (isinstance(d, iScsiDiskDevice) and
rootdev.dependsOn(d)):
if d.nic == "default" or ":" in d.nic:
if iface == ifaceForHostIP(d.host_address):
return True
elif d.nic == iface:
return True
return False
def write_network_config(storage, ksdata, instClass, rootpath):
write_hostname(rootpath, ksdata, overwrite=flags.livecdInstall)
set_hostname(ksdata.network.hostname)
write_sysconfig_network(rootpath, overwrite=flags.livecdInstall)
disableIPV6(rootpath)
if not flags.imageInstall:
copyIfcfgFiles(rootpath)
copyDhclientConfFiles(rootpath)
copyFileToPath("/etc/resolv.conf", rootpath, overwrite=flags.livecdInstall)
def update_hostname_data(ksdata, hostname=None):
if not hostname:
# Default to 'dom0' in Qubes
hostname = 'dom0'
log.debug("updating hostname %s" % hostname)
hostname_found = False
for nd in ksdata.network.network:
if nd.hostname:
nd.hostname = hostname
hostname_found = True
if not hostname_found:
nd = hostname_ksdata(hostname)
ksdata.network.network.append(nd)
def get_device_name(devspec):
devices = nm.nm_devices()
devname = None
if not devspec:
if "ksdevice" in flags.cmdline:
msg = "ksdevice boot parameter"
devname = ks_spec_to_device_name(flags.cmdline["ksdevice"])
elif nm.nm_is_connected():
# device activated in stage 1 by network kickstart command
msg = "first active device"
try:
devname = nm.nm_activated_devices()[0]
except IndexError:
log.debug("get_device_name: NM is connected but no activated devices found")
else:
msg = "first device found"
devname = min(devices)
log.info("unspecified network --device in kickstart, using %s (%s)",
devname, msg)
else:
if iutil.lowerASCII(devspec) == "ibft":
devname = ""
if iutil.lowerASCII(devspec) == "link":
for dev in sorted(devices):
try:
link_up = nm.nm_device_carrier(dev)
except ValueError as e:
log.debug("get_device_name: %s", e)
continue
if link_up:
devname = dev
break
else:
log.error("Kickstart: No network device with link found")
elif iutil.lowerASCII(devspec) == "bootif":
if "BOOTIF" in flags.cmdline:
# MAC address like 01-aa-bb-cc-dd-ee-ff
devname = flags.cmdline["BOOTIF"][3:]
devname = devname.replace("-",":")
else:
log.error("Using --device=bootif without BOOTIF= boot option supplied")
else: devname = devspec
if devname and devname not in devices:
for d in devices:
try:
hwaddr = nm.nm_device_hwaddress(d)
except ValueError as e:
log.debug("get_device_name: %s", e)
continue
if hwaddr.lower() == devname.lower():
devname = d
break
else:
return ""
return devname
def setOnboot(ksdata):
updated_devices = []
for network_data in ksdata.network.network:
# vlan
if network_data.vlanid:
physdev = get_device_name(network_data.device) or network_data.device
devname = "%s.%s" % (physdev, network_data.vlanid)
# bond
elif network_data.bondslaves:
devname = network_data.device
# team
elif network_data.teamslaves:
devname = network_data.device
# ethernet
else:
devname = get_device_name(network_data.device)
if not devname:
log.warning("Kickstart: The provided network interface %s does not exist", network_data.device)
continue
updated_devices.append(devname)
try:
nm.nm_update_settings_of_device(devname, [['connection', 'autoconnect', network_data.onboot, None]])
except (nm.SettingsNotFoundError, nm.UnknownDeviceError) as e:
log.debug("setOnboot: %s", e)
return updated_devices
def apply_kickstart_from_pre_section(ksdata):
applied_devices = []
for network_data in ksdata.network.network:
# TODO: wireless not supported yet
if network_data.essid:
continue
# get device name for device specified by MAC, link, bootif, etc...
dev_name = ks_spec_to_device_name(network_data.device)
if not dev_name:
log.error("Kickstart: The provided network interface %s does not exist", network_data.device)
continue
if network_data.vlanid:
dev_name = "%s.%s" % (dev_name, network_data.vlanid)
ifcfg_path = find_ifcfg_file_of_device(dev_name)
# if the device was already configured in intramfs by kickstart ignore it
if ifcfg_path:
with open(ifcfg_path, 'r') as f:
if "Generated by parse-kickstart" in f.read():
continue
applied_devices.append(dev_name)
if ifcfg_path:
# if the device was already configured in initramfs update the settings
log.debug("network: pre kickstart - updating settings of device %s", dev_name)
con_uuid = update_settings_with_ksdata(dev_name, network_data)
added_connections = [(con_uuid, dev_name)]
else:
log.debug("network: pre kickstart - adding connection for %s", dev_name)
# Virtual devices (eg vlan, bond) return dev_name == None
added_connections = add_connection_for_ksdata(network_data, dev_name)
if network_data.activate:
for con_uuid, dev_name in added_connections:
nm.nm_activate_device_connection(dev_name, con_uuid)
return applied_devices
def networkInitialize(ksdata):
log.debug("network: devices found %s", nm.nm_devices())
logIfcfgFiles("network initialization")
if not flags.imageInstall:
devnames = apply_kickstart_from_pre_section(ksdata)
if devnames:
msg = "kickstart pre section applied for devices %s" % devnames
log.debug("network: %s", msg)
logIfcfgFiles(msg)
devnames = dumpMissingDefaultIfcfgs()
if devnames:
msg = "missing ifcfgs created for devices %s" % devnames
log.debug("network: %s", msg)
logIfcfgFiles(msg)
# For kickstart network --activate option we set ONBOOT=yes
# in dracut to get devices activated by NM. The real network --onboot
# value is set here.
devnames = setOnboot(ksdata)
if devnames:
msg = "setting real kickstart ONBOOT value for devices %s" % devnames
log.debug("network: %s", msg)
logIfcfgFiles(msg)
if ksdata.network.hostname is None:
hostname = getHostname()
update_hostname_data(ksdata, hostname)
def _get_ntp_servers_from_dhcp(ksdata):
"""Check if some NTP servers were returned from DHCP and set them
to ksdata (if not NTP servers were specified in the kickstart)"""
ntp_servers = nm.nm_ntp_servers_from_dhcp()
log.info("got %d NTP servers from DHCP", len(ntp_servers))
hostnames = []
for server_address in ntp_servers:
try:
hostname = socket.gethostbyaddr(server_address)[0]
except socket.error:
# getting hostname failed, just use the address returned from DHCP
log.debug("getting NTP server hostname failed for address: %s",
server_address)
hostname = server_address
hostnames.append(hostname)
# check if some NTP servers were specified from kickstart
if not ksdata.timezone.ntpservers:
# no NTP servers were specified, add those from DHCP
ksdata.timezone.ntpservers = hostnames
def _wait_for_connecting_NM():
"""If NM is in connecting state, wait for connection.
Return value: NM has got connection."""
if nm.nm_is_connected:
return True
if nm.nm_is_connecting():
log.debug("waiting for connecting NM (dhcp?)")
else:
return False
i = 0
while nm.nm_is_connecting() and i < constants.NETWORK_CONNECTION_TIMEOUT:
i += constants.NETWORK_CONNECTED_CHECK_INTERVAL
time.sleep(constants.NETWORK_CONNECTED_CHECK_INTERVAL)
if nm.nm_is_connected():
log.debug("connected, waited %d seconds", i)
return True
log.debug("not connected, waited %d of %d secs", i, constants.NETWORK_CONNECTION_TIMEOUT)
return False
def wait_for_network_devices(devices, timeout=constants.NETWORK_CONNECTION_TIMEOUT):
devices = set(devices)
i = 0
log.debug("waiting for connection of devices %s for iscsi", devices)
while i < timeout:
if not devices - set(nm.nm_activated_devices()):
return True
i += 1
time.sleep(1)
return False
def wait_for_connecting_NM_thread(ksdata):
"""This function is called from a thread which is run at startup
to wait for Network Manager to connect."""
# connection (e.g. auto default dhcp) is activated by NM service
connected = _wait_for_connecting_NM()
if connected:
if ksdata.network.hostname == DEFAULT_HOSTNAME:
hostname = getHostname()
update_hostname_data(ksdata, hostname)
_get_ntp_servers_from_dhcp(ksdata)
with network_connected_condition:
global network_connected
network_connected = connected
network_connected_condition.notify_all()
def wait_for_connectivity(timeout=constants.NETWORK_CONNECTION_TIMEOUT):
"""Wait for network connectivty to become available
:param timeout: how long to wait in seconds
:type param: integer of float"""
connected = False
network_connected_condition.acquire()
# if network_connected is None, network connectivity check
# has not yet been run or is in progress, so wait for it to finish
if network_connected is None:
# wait releases the lock and reacquires it once the thread is unblocked
network_connected_condition.wait(timeout=timeout)
connected = network_connected
# after wait() unblocks, we get the lock back,
# so we need to release it
network_connected_condition.release()
return connected
def status_message():
""" A short string describing which devices are connected. """
msg = _("Unknown")
state = nm.nm_state()
if state == NetworkManager.State.CONNECTING:
msg = _("Connecting...")
elif state == NetworkManager.State.DISCONNECTING:
msg = _("Disconnecting...")
else:
active_devs = nm.nm_activated_devices()
if active_devs:
slaves = {}
ssids = {}
# first find slaves and wireless aps
for devname in active_devs:
slaves[devname] = nm.nm_device_slaves(devname) or []
if nm.nm_device_type_is_wifi(devname):
ssids[devname] = nm.nm_device_active_ssid(devname) or ""
all_slaves = set(itertools.chain.from_iterable(slaves.values()))
nonslaves = [dev for dev in active_devs if dev not in all_slaves]
if len(nonslaves) == 1:
devname = nonslaves[0]
if nm.nm_device_type_is_ethernet(devname):
msg = _("Wired (%(interface_name)s) connected") \
% {"interface_name": devname}
elif nm.nm_device_type_is_wifi(devname):
msg = _("Wireless connected to %(access_point)s") \
% {"access_point" : ssids[devname]}
elif nm.nm_device_type_is_bond(devname):
msg = _("Bond %(interface_name)s (%(list_of_slaves)s) connected") \
% {"interface_name": devname, \
"list_of_slaves": ",".join(slaves[devname])}
elif nm.nm_device_type_is_team(devname):
msg = _("Team%(interface_name)s (%(list_of_slaves)s) connected") \
% {"interface_name": devname, \
"list_of_slaves": ",".join(slaves[devname])}
elif nm.nm_device_type_is_vlan(devname):
parent = nm.nm_device_setting_value(devname, "vlan", "parent")
vlanid = nm.nm_device_setting_value(devname, "vlan", "id")
msg = _("Vlan %(interface_name)s (%(parent_device)s, ID %(vlanid)s) connected") \
% {"interface_name": devname, "parent_device": parent, "vlanid": vlanid}
elif len(nonslaves) > 1:
devlist = []
for devname in nonslaves:
if nm.nm_device_type_is_ethernet(devname):
devlist.append("%s" % devname)
elif nm.nm_device_type_is_wifi(devname):
devlist.append("%s" % ssids[devname])
elif nm.nm_device_type_is_bond(devname):
devlist.append("%s (%s)" % (devname, ",".join(slaves[devname])))
elif nm.nm_device_type_is_team(devname):
devlist.append("%s (%s)" % (devname, ",".join(slaves[devname])))
elif nm.nm_device_type_is_vlan(devname):
devlist.append("%s" % devname)
msg = _("Connected: %(list_of_interface_names)s") \
% {"list_of_interface_names": ", ".join(devlist)}
else:
msg = _("Not connected")
if not nm.nm_devices():
msg = _("No network devices available")
return msg
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