# # 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 . # # Author(s): Matt Wilson # Erik Troan # Mike Fulbright # Brent Fox # David Cantrell # import string import shutil import isys import iutil import socket import struct import os import time import dbus import tempfile import simpleconfig import re from flags import flags from simpleconfig import IfcfgFile import urlgrabber.grabber from pyanaconda.storage.devices import FcoeDiskDevice, iScsiDiskDevice import gettext _ = lambda x: gettext.ldgettext("anaconda", x) import logging log = logging.getLogger("anaconda") sysconfigDir = "/etc/sysconfig" netscriptsDir = "%s/network-scripts" % (sysconfigDir) networkConfFile = "%s/network" % (sysconfigDir) hostnameFile = "/etc/hostname" ipv6ConfFile = "/etc/modprobe.d/ipv6.conf" ifcfgLogFile = "/tmp/ifcfg.log" CONNECTION_TIMEOUT = 45 # part of a valid hostname between two periods (cannot start nor end with '-') # for more info about '(?!-)' and '(? 255: return (False, _("Hostname must be 255 or fewer characters in length.")) validStart = string.ascii_letters + string.digits validAll = validStart + ".-" 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 getActiveNetDevs(): try: ips += (isys.getIPAddresses(devname, version=4) + isys.getIPAddresses(devname, version=6)) except Exception 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 # 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 getActiveNetDevs(): addrs = (isys.getIPAddresses(dev, version=4) + isys.getIPAddresses(dev, version=6)) for ipaddr in addrs: try: hinfo = socket.gethostbyaddr(ipaddr) except Exception 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'): hn = 'localhost.localdomain' return hn # sanity check an IP string. def sanityCheckIPString(ip_string): if not ip_string.strip(): raise IPMissing, _("IP address is missing.") if '.' in ip_string[1:] and ':' not in ip_string: family = socket.AF_INET errstr = _("IPv4 addresses must contain four numbers between 0 and 255, separated by periods.") elif ':' in ip_string[1:] and '.' not in ip_string: family = socket.AF_INET6 errstr = _("'%s' is not a valid IPv6 address.") % ip_string else: raise IPError, _("'%s' is an invalid IP address.") % ip_string try: socket.inet_pton(family, ip_string) except socket.error: raise IPError, errstr def nmIsConnected(state): return state in (isys.NM_STATE_CONNECTED_LOCAL, isys.NM_STATE_CONNECTED_SITE, isys.NM_STATE_CONNECTED_GLOBAL) def hasActiveNetDev(): try: bus = dbus.SystemBus() nm = bus.get_object(isys.NM_SERVICE, isys.NM_MANAGER_PATH) props = dbus.Interface(nm, isys.DBUS_PROPS_IFACE) state = props.Get(isys.NM_SERVICE, "State") return nmIsConnected(state) except: return flags.testing # Return a list of device names (e.g., eth0) for all active devices. # Returning a list here even though we will almost always have one # device. NM uses lists throughout its D-Bus communication, so trying # to follow suit here. Also, if this uses a list now, we can think # about multihomed hosts during installation later. def getActiveNetDevs(): active_devs = set() bus = dbus.SystemBus() nm = bus.get_object(isys.NM_SERVICE, isys.NM_MANAGER_PATH) nm_props_iface = dbus.Interface(nm, isys.DBUS_PROPS_IFACE) active_connections = nm_props_iface.Get(isys.NM_MANAGER_IFACE, "ActiveConnections") for connection in active_connections: active_connection = bus.get_object(isys.NM_SERVICE, connection) active_connection_props_iface = dbus.Interface(active_connection, isys.DBUS_PROPS_IFACE) devices = active_connection_props_iface.Get(isys.NM_ACTIVE_CONNECTION_IFACE, 'Devices') for device_path in devices: device = bus.get_object(isys.NM_SERVICE, device_path) device_props_iface = dbus.Interface(device, isys.DBUS_PROPS_IFACE) interface_name = device_props_iface.Get(isys.NM_DEVICE_IFACE, 'Interface') active_devs.add(interface_name) ret = list(active_devs) ret.sort() return ret 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 logIfcfgFiles(message=""): ifcfglog.debug("content of files (%s):" % message) for name in os.listdir(netscriptsDir): if name.startswith("ifcfg-"): if name == 'ifcfg-lo': continue path = os.path.join(netscriptsDir, name) f = open(path, 'r') content = f.read() f.close() ifcfglog.debug("%s:\n%s" % (path, content)) class NetworkDevice(IfcfgFile): def __init__(self, dir, iface): IfcfgFile.__init__(self, dir, iface) if iface.startswith('ctc'): self.info["TYPE"] = "CTC" self.wepkey = "" self._dirty = False def clear(self): IfcfgFile.clear(self) if self.iface.startswith('ctc'): self.info["TYPE"] = "CTC" self.wepkey = "" def __str__(self): s = "" keys = self.info.keys() if iutil.isS390() and ("HWADDR" in keys): keys.remove("HWADDR") # make sure we include autoneg in the ethtool line if 'ETHTOOL_OPTS' in keys: eopts = self.get('ETHTOOL_OPTS') if "autoneg" not in eopts: self.set(('ETHTOOL_OPTS', "autoneg off %s" % eopts)) for key in keys: if self.info[key] is not None: s = s + key + '="' + self.info[key] + '"\n' return s # anaconda doesn't actually need this configuration, but if we don't write # it to the installed system then 'ifup' doesn't work after install. # FIXME: make 'ifup' use its own defaults! def setDefaultConfig(self): ifcfglog.debug("NetworkDevice %s: setDefaultConfig()" % self.iface) self.set(("DEVICE", self.iface), ("BOOTPROTO", "dhcp"), ("ONBOOT", "no")) # for "security", or something try: mac = open("/sys/class/net/%s/address" % self.iface).read().strip() self.set(("HWADDR", mac.upper())) except IOError as e: ifcfglog.warning("HWADDR: %s" % str(e)) try: uuid = open("/proc/sys/kernel/random/uuid").read().strip() self.set(("UUID", uuid)) except IOError as e: ifcfglog.warning("UUID: %s" % str(e)) self.writeIfcfgFile() def loadIfcfgFile(self): ifcfglog.debug("loadIfcfFile %s" % self.path) self.clear() IfcfgFile.read(self) self._dirty = False def writeIfcfgFile(self): # Write out the file only if there is a key whose # value has been changed since last load of ifcfg file. ifcfglog.debug("writeIfcfgFile %s to %s%s" % (self.iface, self.path, ("" if self._dirty else " not needed"))) if self._dirty: ifcfglog.debug("old %s:\n%s" % (self.path, self.fileContent())) ifcfglog.debug("writing NetworkDevice %s:\n%s" % (self.iface, self.__str__())) IfcfgFile.write(self) self._dirty = False # We can't read the file right now racing with ifcfg-rh update #ifcfglog.debug("%s:\n%s" % (device.path, device.fileContent())) def set(self, *args): # If we are changing value of a key set _dirty flag # informing that ifcfg file needs to be synced. s = " ".join(["%s=%s" % key_val for key_val in args]) ifcfglog.debug("NetworkDevice %s set: %s" % (self.iface, s)) for (key, data) in args: if self.get(key) != data: break else: return IfcfgFile.set(self, *args) self._dirty = True @property def keyfilePath(self): return os.path.join(self.dir, "keys-%s" % self.iface) def writeWepkeyFile(self, dir=None, overwrite=True): if not self.wepkey: return False if not dir: keyfile = self.keyfilePath else: keyfile = os.path.join(dir, os.path.basename(self.keyfilePath)) if not overwrite and os.path.isfile(keyfile): return False fd, newifcfg = tempfile.mkstemp(prefix="keys-%s" % self.iface, text=False) os.write(fd, "KEY1=%s\n" % self.wepkey) os.close(fd) os.chmod(newifcfg, 0644) try: os.remove(keyfile) except OSError as e: if e.errno != 2: raise shutil.move(newifcfg, keyfile) def fileContent(self): if not os.path.exists(self.path): return "" f = open(self.path, 'r') content = f.read() f.close() return content def setGateway(self, gw): if ':' in gw: self.set(('IPV6_DEFAULTGW', gw)) else: self.set(('GATEWAY', gw)) def unsetDNS(self): """Unset all DNS* ifcfg parameters.""" i = 1 while True: if self.get("DNS%d" % i): self.unset("DNS%d" %i) else: break i += 1 def setDNS(self, ns): dns = ns.split(',') i = 1 for addr in dns: addr = addr.strip() dnslabel = "DNS%d" % (i,) self.set((dnslabel, addr)) i += 1 class WirelessNetworkDevice(NetworkDevice): """ This class overwrites NetworkDevice's, IfcfgFile's and SimpleConfigFile's methods to prevent working with per-device ifcfgfiles (which doesn't make sense with wifi devices) """ def __init__(self, iface): self.info = dict() self.iface = iface self.dir = "" def clear(self): self.info = dict() #method __str__ can be left untouched def loadIfcfgFile(self): pass def writeIfcfgFile(self): pass def set(self, *args): msg = "".join(["%s=%s" % (key, val) for (key, val) in args]) for (key, val) in args: self.info[simpleconfig.uppercase_ASCII_string(key)] = val #not used, remove? def fileContent(self): return "" #@property path can be left untouched (code using it skips nonexisting #ifcfg files def read(self): #same return value as IfcfgFile.read() return len(self.info) def write(self): pass def get_NM_object(path): return dbus.SystemBus().get_object(isys.NM_SERVICE, path) def createMissingDefaultIfcfgs(): """ Create or 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.) If there is no default auto connection for a device, create default ifcfg file. Returns True if any ifcfg file was created or dumped. """ rv = False nm = get_NM_object(isys.NM_MANAGER_PATH) dev_paths = nm.GetDevices() settings = get_NM_object(isys.NM_SETTINGS_PATH) for devpath in dev_paths: device = get_NM_object(devpath) device_props_iface = dbus.Interface(device, isys.DBUS_PROPS_IFACE) devicetype = device_props_iface.Get(isys.NM_DEVICE_IFACE, "DeviceType") if devicetype == isys.NM_DEVICE_TYPE_WIFI: continue # if there is no ifcfg file for the device interface = str(device_props_iface.Get(isys.NM_DEVICE_IFACE, "Interface")) device_cfg = NetworkDevice(netscriptsDir, interface) if os.access(device_cfg.path, os.R_OK): continue # check if there is a connection for the device (default autoconnection) hwaddr = device_props_iface.Get(isys.NM_DEVICE_WIRED_IFACE, "HwAddress") con_paths = settings.ListConnections() for con_path in con_paths: con = get_NM_object(con_path) setting = con.GetSettings() con_hwaddr = ":".join("%02X" % byte for byte in setting['802-3-ethernet']['mac-address']) # if so, write its configuration with name changed to iface if con_hwaddr.upper() == hwaddr.upper(): setting['connection']['id'] = interface con.Update(setting) rv = True log.debug("network: dumped ifcfg file for default autoconnection on %s" % interface) break else: # if there is no connection, create default ifcfg device_cfg.setDefaultConfig() rv = True return rv def getDevices(): # TODO: filter with existence of ifcfg file? return isys.getDeviceProperties().keys() def waitForDevicesActivation(devices): waited_devs_props = {} bus = dbus.SystemBus() nm = bus.get_object(isys.NM_SERVICE, isys.NM_MANAGER_PATH) device_paths = nm.get_dbus_method("GetDevices")() for device_path in device_paths: device = bus.get_object(isys.NM_SERVICE, device_path) device_props_iface = dbus.Interface(device, isys.DBUS_PROPS_IFACE) iface = str(device_props_iface.Get(isys.NM_DEVICE_IFACE, "Interface")) if iface in devices: waited_devs_props[iface] = device_props_iface i = 0 while True: for dev, device_props_iface in waited_devs_props.items(): state = device_props_iface.Get(isys.NM_DEVICE_IFACE, "State") if state == isys.NM_DEVICE_STATE_ACTIVATED: waited_devs_props.pop(dev) if len(waited_devs_props) == 0 or i >= CONNECTION_TIMEOUT: break i += 1 time.sleep(1) return waited_devs_props.keys() # 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 getDevices(): log.error('Unknown network interface: %s' % nic) return "" ifcfg = NetworkDevice(netscriptsDir, nic) ifcfg.loadIfcfgFile() return dracutBootArguments(ifcfg, networkStorageDevice.host_address, getHostname()) def dracutBootArguments(ifcfg, storage_ipaddr, hostname=None): netargs = set() devname = ifcfg.iface 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 ifcfg.get('bootproto').lower() == '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 = isys.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 iutil.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 kickstartNetworkData(ifcfg=None, hostname=None): from pyanaconda.kickstart import AnacondaKSHandler handler = AnacondaKSHandler() kwargs = {} if not ifcfg and hostname: return handler.NetworkData(hostname=hostname, bootProto="") # ipv4 and ipv6 if not ifcfg.get("ESSID"): kwargs["device"] = ifcfg.iface 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 ifcfg.get('BOOTPROTO').lower() == '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 = isys.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') # ipv6 if (not ifcfg.get('IPV6INIT') or ifcfg.get('IPV6INIT') == "no"): kwargs["noipv6"] = True else: if ifcfg.get('IPV6_AUTOCONF') == "yes": kwargs["ipv6"] = "auto" else: if ifcfg.get('IPV6ADDR'): kwargs["ipv6"] = ifcfg.get('IPV6ADDR') if ifcfg.get('IPV6_DEFAULTGW'): kwargs["gateway"] = ifcfg.get('IPV6_DEFAULTGW') if ifcfg.get('DHCPV6') == "yes": kwargs["ipv6"] = "dhcp" # ipv4 and ipv6 dnsline = '' for key in ifcfg.info.keys(): if key.upper().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") elif ifcfg.get("BOOTPROTO").lower != "dhcp": if (hostname and hostname != "localhost.localdomain"): kwargs["hostname"] = hostname return handler.NetworkData(**kwargs) def getSSIDs(devices_to_scan=None): rv = {} bus = dbus.SystemBus() nm = bus.get_object(isys.NM_SERVICE, isys.NM_MANAGER_PATH) device_paths = nm.get_dbus_method("GetDevices")() for device_path in device_paths: device = bus.get_object(isys.NM_SERVICE, device_path) device_props_iface = dbus.Interface(device, isys.DBUS_PROPS_IFACE) # interface name, eg. "eth0", "wlan0" dev = str(device_props_iface.Get(isys.NM_DEVICE_IFACE, "Interface")) if (isys.isWirelessDevice(dev) and (not devices_to_scan or dev in devices_to_scan)): i = 0 log.info("scanning APs for %s" % dev) while i < 5: ap_paths = device.GetAccessPoints(dbus_interface='org.freedesktop.NetworkManager.Device.Wireless') if ap_paths: break time.sleep(0.5) i += 0.5 ssids = [] for ap_path in ap_paths: ap = bus.get_object(isys.NM_SERVICE, ap_path) ap_props = dbus.Interface(ap, isys.DBUS_PROPS_IFACE) ssid_bytearray = ap_props.Get(isys.NM_ACCESS_POINT_IFACE, "Ssid") ssid = "".join((str(b) for b in ssid_bytearray)) ssids.append(ssid) log.info("APs found for %s: %s" % (dev, str(ssids))) # XXX there can be duplicates in a list, but maybe # we want to keep them when/if we differentiate on something # more then just ssids; for now, remove them rv[dev]=list(set(ssids)) return rv 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 setHostname(hn): if flags.imageInstall: log.info("image install -- not setting hostname") return log.info("setting installation environment hostname to %s" % hn) iutil.execWithRedirect("hostname", ["-v", hn ], stdout="/dev/tty5", stderr="/dev/tty5") def copyFileToPath(file, destPath='', overwrite=False): if not os.path.isfile(file): return False destfile = os.path.join(destPath, file.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(file, 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 getDevices(): dhclientfile = os.path.join("/etc/dhcp/dhclient-%s.conf" % devName) copyFileToPath(dhclientfile, destPath) def get_ksdevice_name(ksspec=""): if not ksspec: ksspec = flags.cmdline.get('ksdevice', "") ksdevice = ksspec bootif_mac = None if ksdevice == 'bootif' and "BOOTIF" in flags.cmdline: bootif_mac = flags.cmdline["BOOTIF"][3:].replace("-", ":").upper() for dev in sorted(getDevices()): # "eth0" if ksdevice == dev: break # "link" elif ksdevice == 'link' and isys.getLinkStatus(dev): ksdevice = dev break # "XX:XX:XX:XX:XX:XX" (mac address) elif ':' in ksdevice: if ksdevice.upper() == isys.getMacAddress(dev): ksdevice = dev break # "bootif" and BOOTIF==XX:XX:XX:XX:XX:XX elif ksdevice == 'bootif': if bootif_mac == isys.getMacAddress(dev): ksdevice = dev break return ksdevice # note that NetworkDevice.get returns "" if key is not found def get_ifcfg_value(iface, key, root_path=""): dev = NetworkDevice(os.path.normpath(root_path + netscriptsDir), iface) dev.loadIfcfgFile() return dev.get(key) 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 not any(get_ifcfg_value(dev, 'IPV6INIT') == "yes" for dev in getDevices())): if os.path.exists(cfgfile): log.warning('Not disabling ipv6, %s exists' % cfgfile) else: log.info('Disabling ipv6 on target system') f = open(cfgfile, "w") f.write("# Anaconda disabling ipv6\n") f.write("options ipv6 disable=1\n") f.close() def disableNMForStorageDevices(rootpath, storage): for devname in getDevices(): if (usedByFCoE(devname, storage) or usedByRootOnISCSI(devname, storage)): dev = NetworkDevice(rootpath + netscriptsDir, devname) if os.access(dev.path, os.R_OK): dev.loadIfcfgFile() dev.set(('NM_CONTROLLED', 'no')) dev.writeIfcfgFile() log.info("network device %s used by storage will not be " "controlled by NM" % devname) else: log.warning("disableNMForStorageDevices: ifcfg file for %s not found" % devname) # sets ONBOOT=yes (and its mirror value in ksdata) for devices used by FCoE def autostartFCoEDevices(rootpath, storage, ksdata): for devname in getDevices(): if usedByFCoE(devname, storage): dev = NetworkDevice(rootpath + netscriptsDir, devname) if os.access(dev.path, os.R_OK): dev.loadIfcfgFile() dev.set(('ONBOOT', 'yes')) dev.writeIfcfgFile() log.debug("setting ONBOOT=yes for network device %s used by fcoe" % devname) for nd in ksdata.network.network: if nd.device == dev.iface: nd.onboot = True break else: log.warning("autoconnectFCoEDevices: ifcfg file for %s not found" % devname) 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) write_sysconfig_network(rootpath, ksdata, overwrite=flags.livecdInstall) disableIPV6(rootpath) if not flags.imageInstall: copyIfcfgFiles(rootpath) copyDhclientConfFiles(rootpath) copyFileToPath("/etc/resolv.conf", rootpath, overwrite=flags.livecdInstall) def wait_for_dhcp(): """If NM is in connecting state, wait for connection. Return value: NM has got connection.""" bus = dbus.SystemBus() nm = bus.get_object(isys.NM_SERVICE, isys.NM_MANAGER_PATH) props = dbus.Interface(nm, isys.DBUS_PROPS_IFACE) state = props.Get(isys.NM_SERVICE, "State") if state == isys.NM_STATE_CONNECTING: log.debug("waiting for connecting NM (dhcp?)") else: return False i = 0 while (state == isys.NM_STATE_CONNECTING and i < CONNECTION_TIMEOUT): state = props.Get(isys.NM_SERVICE, "State") if nmIsConnected(state): log.debug("connected, waited %d seconds" % i) return True i += 1 time.sleep(1) log.debug("not connected, waited %d of %d secs" % (i, CONNECTION_TIMEOUT)) return False def update_hostname(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 = kickstartNetworkData(hostname=hostname) ksdata.network.network.append(nd) def get_device_name(devspec): devices = getDevices() devname = None if not devspec: if "ksdevice" in flags.cmdline: msg = "ksdevice boot parameter" devname = get_ksdevice_name(flags.cmdline["ksdevice"]) elif hasActiveNetDev(): # device activated in stage 1 by network kickstart command msg = "first active device" devname = getActiveNetDevs()[0] else: msg = "first device found" devname = min(devices) log.info("unspecified network --device in kickstart, using %s (%s)" % (devname, msg)) else: if devspec.lower() == "ibft": devname = "" if devspec.lower() == "link": for dev in sorted(devices): if isys.getLinkStatus(dev): devname = dev break else: log.error("Kickstart: No network device with link found") elif devspec.lower() == "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 not in devices: for d in devices: if isys.getMacAddress(d).lower() == devname.lower(): devname = d break return devname def setOnboot(ksdata): for network_data in ksdata.network.network: devname = get_device_name(network_data.device) if not devname: log.error("Kickstart: The provided network interface %s does not exist" % devname) continue dev = NetworkDevice(netscriptsDir, devname) try: dev.loadIfcfgFile() except IOError as e: log.info("Can't load ifcfg file %s, %s" % (dev.path, e)) continue if network_data.onboot: dev.set (("ONBOOT", "yes")) else: dev.set (("ONBOOT", "no")) dev.writeIfcfgFile() # networking initialization and ksdata object update def networkInitialize(ksdata): log.debug("network: devices found %s" % getDevices()) logIfcfgFiles("network initialization") if not flags.imageInstall: # XXX: this should go to anaconda dracut if createMissingDefaultIfcfgs(): logIfcfgFiles("ifcfgs created") # we set ONBOOT value using network --activate activate in dracut # to get devices activated by NM, so set proper ONBOOT value # based on --onboot here setOnboot(ksdata) if ksdata.network.hostname is None: update_hostname(ksdata) # auto default dhcp connection would be activated by NM service if wait_for_dhcp(): update_hostname(ksdata)