# Copyright (C) 2013-2014 Canonical Ltd. # # Author: Scott Moser # Author: Blake Rouse # # Curtin is free software: you can redistribute it and/or modify it under # the terms of the GNU Affero General Public License as published by the # Free Software Foundation, either version 3 of the License, or (at your # option) any later version. # # Curtin 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 Affero General Public License for # more details. # # You should have received a copy of the GNU Affero General Public License # along with Curtin. If not, see . import errno import logging import os import re from cloudinit import util LOG = logging.getLogger(__name__) SYS_CLASS_NET = "/sys/class/net/" DEFAULT_PRIMARY_INTERFACE = 'eth0' def sys_dev_path(devname, path=""): return SYS_CLASS_NET + devname + "/" + path def read_sys_net(devname, path, translate=None, enoent=None, keyerror=None): try: contents = util.load_file(sys_dev_path(devname, path)) except (OSError, IOError) as e: if getattr(e, 'errno', None) == errno.ENOENT: if enoent is not None: return enoent raise contents = contents.strip() if translate is None: return contents try: return translate.get(contents) except KeyError: LOG.debug("found unexpected value '%s' in '%s/%s'", contents, devname, path) if keyerror is not None: return keyerror raise def is_up(devname): # The linux kernel says to consider devices in 'unknown' # operstate as up for the purposes of network configuration. See # Documentation/networking/operstates.txt in the kernel source. translate = {'up': True, 'unknown': True, 'down': False} return read_sys_net(devname, "operstate", enoent=False, keyerror=False, translate=translate) def is_wireless(devname): return os.path.exists(sys_dev_path(devname, "wireless")) def is_connected(devname): # is_connected isn't really as simple as that. 2 is # 'physically connected'. 3 is 'not connected'. but a wlan interface will # always show 3. try: iflink = read_sys_net(devname, "iflink", enoent=False) if iflink == "2": return True if not is_wireless(devname): return False LOG.debug("'%s' is wireless, basing 'connected' on carrier", devname) return read_sys_net(devname, "carrier", enoent=False, keyerror=False, translate={'0': False, '1': True}) except IOError as e: if e.errno == errno.EINVAL: return False raise def is_physical(devname): return os.path.exists(sys_dev_path(devname, "device")) def is_present(devname): return os.path.exists(sys_dev_path(devname)) def get_devicelist(): return os.listdir(SYS_CLASS_NET) class ParserError(Exception): """Raised when a parser has issue parsing a file/content.""" def is_disabled_cfg(cfg): if not cfg or not isinstance(cfg, dict): return False return cfg.get('config') == "disabled" def sys_netdev_info(name, field): if not os.path.exists(os.path.join(SYS_CLASS_NET, name)): raise OSError("%s: interface does not exist in %s" % (name, SYS_CLASS_NET)) fname = os.path.join(SYS_CLASS_NET, name, field) if not os.path.exists(fname): raise OSError("%s: could not find sysfs entry: %s" % (name, fname)) data = util.load_file(fname) if data[-1] == '\n': data = data[:-1] return data def generate_fallback_config(): """Determine which attached net dev is most likely to have a connection and generate network state to run dhcp on that interface""" # by default use eth0 as primary interface nconf = {'config': [], 'version': 1} # get list of interfaces that could have connections invalid_interfaces = set(['lo']) potential_interfaces = set(get_devicelist()) potential_interfaces = potential_interfaces.difference(invalid_interfaces) # sort into interfaces with carrier, interfaces which could have carrier, # and ignore interfaces that are definitely disconnected connected = [] possibly_connected = [] for interface in potential_interfaces: if interface.startswith("veth"): continue if os.path.exists(sys_dev_path(interface, "bridge")): # skip any bridges continue try: carrier = int(sys_netdev_info(interface, 'carrier')) if carrier: connected.append(interface) continue except OSError: pass # check if nic is dormant or down, as this may make a nick appear to # not have a carrier even though it could acquire one when brought # online by dhclient try: dormant = int(sys_netdev_info(interface, 'dormant')) if dormant: possibly_connected.append(interface) continue except OSError: pass try: operstate = sys_netdev_info(interface, 'operstate') if operstate in ['dormant', 'down', 'lowerlayerdown', 'unknown']: possibly_connected.append(interface) continue except OSError: pass # don't bother with interfaces that might not be connected if there are # some that definitely are if connected: potential_interfaces = connected else: potential_interfaces = possibly_connected # if there are no interfaces, give up if not potential_interfaces: return # if eth0 exists use it above anything else, otherwise get the interface # that looks 'first' if DEFAULT_PRIMARY_INTERFACE in potential_interfaces: name = DEFAULT_PRIMARY_INTERFACE else: name = sorted(potential_interfaces)[0] mac = sys_netdev_info(name, 'address') target_name = name nconf['config'].append( {'type': 'physical', 'name': target_name, 'mac_address': mac, 'subnets': [{'type': 'dhcp'}]}) return nconf def apply_network_config_names(netcfg, strict_present=True, strict_busy=True): """read the network config and rename devices accordingly. if strict_present is false, then do not raise exception if no devices match. if strict_busy is false, then do not raise exception if the device cannot be renamed because it is currently configured.""" renames = [] for ent in netcfg.get('config', {}): if ent.get('type') != 'physical': continue mac = ent.get('mac_address') name = ent.get('name') if not mac: continue renames.append([mac, name]) return _rename_interfaces(renames) def _get_current_rename_info(check_downable=True): """Collect information necessary for rename_interfaces.""" names = get_devicelist() bymac = {} for n in names: bymac[get_interface_mac(n)] = { 'name': n, 'up': is_up(n), 'downable': None} if check_downable: nmatch = re.compile(r"[0-9]+:\s+(\w+)[@:]") ipv6, _err = util.subp(['ip', '-6', 'addr', 'show', 'permanent', 'scope', 'global'], capture=True) ipv4, _err = util.subp(['ip', '-4', 'addr', 'show'], capture=True) nics_with_addresses = set() for bytes_out in (ipv6, ipv4): nics_with_addresses.update(nmatch.findall(bytes_out)) for d in bymac.values(): d['downable'] = (d['up'] is False or d['name'] not in nics_with_addresses) return bymac def _rename_interfaces(renames, strict_present=True, strict_busy=True, current_info=None): if current_info is None: current_info = _get_current_rename_info() cur_bymac = {} for mac, data in current_info.items(): cur = data.copy() cur['mac'] = mac cur_bymac[mac] = cur def update_byname(bymac): return {data['name']: data for data in bymac.values()} def rename(cur, new): util.subp(["ip", "link", "set", cur, "name", new], capture=True) def down(name): util.subp(["ip", "link", "set", name, "down"], capture=True) def up(name): util.subp(["ip", "link", "set", name, "up"], capture=True) ops = [] errors = [] ups = [] cur_byname = update_byname(cur_bymac) tmpname_fmt = "cirename%d" tmpi = -1 for mac, new_name in renames: cur = cur_bymac.get(mac, {}) cur_name = cur.get('name') cur_ops = [] if cur_name == new_name: # nothing to do continue if not cur_name: if strict_present: errors.append( "[nic not present] Cannot rename mac=%s to %s" ", not available." % (mac, new_name)) continue if cur['up']: msg = "[busy] Error renaming mac=%s from %s to %s" if not cur['downable']: if strict_busy: errors.append(msg % (mac, cur_name, new_name)) continue cur['up'] = False cur_ops.append(("down", mac, new_name, (cur_name,))) ups.append(("up", mac, new_name, (new_name,))) if new_name in cur_byname: target = cur_byname[new_name] if target['up']: msg = "[busy-target] Error renaming mac=%s from %s to %s." if not target['downable']: if strict_busy: errors.append(msg % (mac, cur_name, new_name)) continue else: cur_ops.append(("down", mac, new_name, (new_name,))) tmp_name = None while tmp_name is None or tmp_name in cur_byname: tmpi += 1 tmp_name = tmpname_fmt % tmpi cur_ops.append(("rename", mac, new_name, (new_name, tmp_name))) target['name'] = tmp_name cur_byname = update_byname(cur_bymac) if target['up']: ups.append(("up", mac, new_name, (tmp_name,))) cur_ops.append(("rename", mac, new_name, (cur['name'], new_name))) cur['name'] = new_name cur_byname = update_byname(cur_bymac) ops += cur_ops opmap = {'rename': rename, 'down': down, 'up': up} if len(ops) + len(ups) == 0: if len(errors): LOG.debug("unable to do any work for renaming of %s", renames) else: LOG.debug("no work necessary for renaming of %s", renames) else: LOG.debug("achieving renaming of %s with ops %s", renames, ops + ups) for op, mac, new_name, params in ops + ups: try: opmap.get(op)(*params) except Exception as e: errors.append( "[unknown] Error performing %s%s for %s, %s: %s" % (op, params, mac, new_name, e)) if len(errors): raise Exception('\n'.join(errors)) def get_interface_mac(ifname): """Returns the string value of an interface's MAC Address""" return read_sys_net(ifname, "address", enoent=False) def get_interfaces_by_mac(devs=None): """Build a dictionary of tuples {mac: name}""" if devs is None: try: devs = get_devicelist() except OSError as e: if e.errno == errno.ENOENT: devs = [] else: raise ret = {} for name in devs: mac = get_interface_mac(name) # some devices may not have a mac (tun0) if mac: ret[mac] = name return ret # vi: ts=4 expandtab syntax=python