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Filename: //lib/python3//dist-packages/cloudinit//net/eni.py
# This file is part of cloud-init. See LICENSE file for license information. import copy import glob import os import re from . import ParserError from . import renderer from .network_state import subnet_is_ipv6 from cloudinit import log as logging from cloudinit import subp from cloudinit import util LOG = logging.getLogger(__name__) NET_CONFIG_COMMANDS = [ "pre-up", "up", "post-up", "down", "pre-down", "post-down", ] NET_CONFIG_BRIDGE_OPTIONS = [ "bridge_ageing", "bridge_bridgeprio", "bridge_fd", "bridge_gcinit", "bridge_hello", "bridge_maxage", "bridge_maxwait", "bridge_stp", ] NET_CONFIG_OPTIONS = [ "address", "netmask", "broadcast", "network", "metric", "gateway", "pointtopoint", "media", "mtu", "hostname", "leasehours", "leasetime", "vendor", "client", "bootfile", "server", "hwaddr", "provider", "frame", "netnum", "endpoint", "local", "ttl", ] # TODO: switch valid_map based on mode inet/inet6 def _iface_add_subnet(iface, subnet): content = [] valid_map = [ 'address', 'netmask', 'broadcast', 'metric', 'gateway', 'pointopoint', 'mtu', 'scope', 'dns_search', 'dns_nameservers', ] for key, value in subnet.items(): if key == 'netmask': continue if key == 'address': value = "%s/%s" % (subnet['address'], subnet['prefix']) if value and key in valid_map: if type(value) == list: value = " ".join(value) if '_' in key: key = key.replace('_', '-') content.append(" {0} {1}".format(key, value)) return sorted(content) # TODO: switch to valid_map for attrs def _iface_add_attrs(iface, index, ipv4_subnet_mtu): # If the index is non-zero, this is an alias interface. Alias interfaces # represent additional interface addresses, and should not have additional # attributes. (extra attributes here are almost always either incorrect, # or are applied to the parent interface.) So if this is an alias, stop # right here. if index != 0: return [] content = [] ignore_map = [ 'control', 'device_id', 'driver', 'index', 'inet', 'mode', 'name', 'subnets', 'type', ] # The following parameters require repetitive entries of the key for # each of the values multiline_keys = [ 'bridge_pathcost', 'bridge_portprio', 'bridge_waitport', ] renames = {'mac_address': 'hwaddress'} if iface['type'] not in ['bond', 'bridge', 'infiniband', 'vlan']: ignore_map.append('mac_address') for key, value in iface.items(): # convert bool to string for eni if type(value) == bool: value = 'on' if iface[key] else 'off' if not value or key in ignore_map: continue if key == 'mtu' and ipv4_subnet_mtu: if value != ipv4_subnet_mtu: LOG.warning( "Network config: ignoring %s device-level mtu:%s because" " ipv4 subnet-level mtu:%s provided.", iface['name'], value, ipv4_subnet_mtu) continue if key in multiline_keys: for v in value: content.append(" {0} {1}".format(renames.get(key, key), v)) continue if type(value) == list: value = " ".join(value) content.append(" {0} {1}".format(renames.get(key, key), value)) return sorted(content) def _iface_start_entry(iface, index, render_hwaddress=False): fullname = iface['name'] control = iface['control'] if control == "auto": cverb = "auto" elif control in ("hotplug",): cverb = "allow-" + control else: cverb = "# control-" + control subst = iface.copy() subst.update({'fullname': fullname, 'cverb': cverb}) lines = [ "{cverb} {fullname}".format(**subst), "iface {fullname} {inet} {mode}".format(**subst)] if render_hwaddress and iface.get('mac_address'): lines.append(" hwaddress {mac_address}".format(**subst)) return lines def _parse_deb_config_data(ifaces, contents, src_dir, src_path): """Parses the file contents, placing result into ifaces. '_source_path' is added to every dictionary entry to define which file the configration information came from. :param ifaces: interface dictionary :param contents: contents of interfaces file :param src_dir: directory interfaces file was located :param src_path: file path the `contents` was read """ currif = None for line in contents.splitlines(): line = line.strip() if line.startswith('#'): continue split = line.split(' ') option = split[0] if option == "source-directory": parsed_src_dir = split[1] if not parsed_src_dir.startswith("/"): parsed_src_dir = os.path.join(src_dir, parsed_src_dir) for expanded_path in glob.glob(parsed_src_dir): dir_contents = os.listdir(expanded_path) dir_contents = [ os.path.join(expanded_path, path) for path in dir_contents if (os.path.isfile(os.path.join(expanded_path, path)) and re.match("^[a-zA-Z0-9_-]+$", path) is not None) ] for entry in dir_contents: with open(entry, "r") as fp: src_data = fp.read().strip() abs_entry = os.path.abspath(entry) _parse_deb_config_data( ifaces, src_data, os.path.dirname(abs_entry), abs_entry) elif option == "source": new_src_path = split[1] if not new_src_path.startswith("/"): new_src_path = os.path.join(src_dir, new_src_path) for expanded_path in glob.glob(new_src_path): with open(expanded_path, "r") as fp: src_data = fp.read().strip() abs_path = os.path.abspath(expanded_path) _parse_deb_config_data( ifaces, src_data, os.path.dirname(abs_path), abs_path) elif option == "auto": for iface in split[1:]: if iface not in ifaces: ifaces[iface] = { # Include the source path this interface was found in. "_source_path": src_path } ifaces[iface]['auto'] = True elif option == "iface": iface, family, method = split[1:4] if iface not in ifaces: ifaces[iface] = { # Include the source path this interface was found in. "_source_path": src_path } elif 'family' in ifaces[iface]: raise ParserError( "Interface %s can only be defined once. " "Re-defined in '%s'." % (iface, src_path)) ifaces[iface]['family'] = family ifaces[iface]['method'] = method currif = iface elif option == "hwaddress": if split[1] == "ether": val = split[2] else: val = split[1] ifaces[currif]['hwaddress'] = val elif option in NET_CONFIG_OPTIONS: ifaces[currif][option] = split[1] elif option in NET_CONFIG_COMMANDS: if option not in ifaces[currif]: ifaces[currif][option] = [] ifaces[currif][option].append(' '.join(split[1:])) elif option.startswith('dns-'): if 'dns' not in ifaces[currif]: ifaces[currif]['dns'] = {} if option == 'dns-search': ifaces[currif]['dns']['search'] = [] for domain in split[1:]: ifaces[currif]['dns']['search'].append(domain) elif option == 'dns-nameservers': ifaces[currif]['dns']['nameservers'] = [] for server in split[1:]: ifaces[currif]['dns']['nameservers'].append(server) elif option.startswith('bridge_'): if 'bridge' not in ifaces[currif]: ifaces[currif]['bridge'] = {} if option in NET_CONFIG_BRIDGE_OPTIONS: bridge_option = option.replace('bridge_', '', 1) ifaces[currif]['bridge'][bridge_option] = split[1] elif option == "bridge_ports": ifaces[currif]['bridge']['ports'] = [] for iface in split[1:]: ifaces[currif]['bridge']['ports'].append(iface) elif option == "bridge_hw": # doc is confusing and thus some may put literal 'MAC' # bridge_hw MAC <address> # but correct is: # bridge_hw <address> if split[1].lower() == "mac": ifaces[currif]['bridge']['mac'] = split[2] else: ifaces[currif]['bridge']['mac'] = split[1] elif option == "bridge_pathcost": if 'pathcost' not in ifaces[currif]['bridge']: ifaces[currif]['bridge']['pathcost'] = {} ifaces[currif]['bridge']['pathcost'][split[1]] = split[2] elif option == "bridge_portprio": if 'portprio' not in ifaces[currif]['bridge']: ifaces[currif]['bridge']['portprio'] = {} ifaces[currif]['bridge']['portprio'][split[1]] = split[2] elif option.startswith('bond-'): if 'bond' not in ifaces[currif]: ifaces[currif]['bond'] = {} bond_option = option.replace('bond-', '', 1) ifaces[currif]['bond'][bond_option] = split[1] for iface in ifaces.keys(): if 'auto' not in ifaces[iface]: ifaces[iface]['auto'] = False def parse_deb_config(path): """Parses a debian network configuration file.""" ifaces = {} with open(path, "r") as fp: contents = fp.read().strip() abs_path = os.path.abspath(path) _parse_deb_config_data( ifaces, contents, os.path.dirname(abs_path), abs_path) return ifaces def convert_eni_data(eni_data): # return a network config representation of what is in eni_data ifaces = {} _parse_deb_config_data(ifaces, eni_data, src_dir=None, src_path=None) return _ifaces_to_net_config_data(ifaces) def _ifaces_to_net_config_data(ifaces): """Return network config that represents the ifaces data provided. ifaces = parse_deb_config("/etc/network/interfaces") config = ifaces_to_net_config_data(ifaces) state = parse_net_config_data(config).""" devs = {} for name, data in ifaces.items(): # devname is 'eth0' for name='eth0:1' devname = name.partition(":")[0] if devname not in devs: if devname == "lo": dtype = "loopback" else: dtype = "physical" devs[devname] = {'type': dtype, 'name': devname, 'subnets': []} # this isnt strictly correct, but some might specify # hwaddress on a nic for matching / declaring name. if 'hwaddress' in data: devs[devname]['mac_address'] = data['hwaddress'] subnet = {'_orig_eni_name': name, 'type': data['method']} if data.get('auto'): subnet['control'] = 'auto' else: subnet['control'] = 'manual' if data.get('method') == 'static': subnet['address'] = data['address'] for copy_key in ('netmask', 'gateway', 'broadcast'): if copy_key in data: subnet[copy_key] = data[copy_key] if 'dns' in data: for n in ('nameservers', 'search'): if n in data['dns'] and data['dns'][n]: subnet['dns_' + n] = data['dns'][n] devs[devname]['subnets'].append(subnet) return {'version': 1, 'config': [devs[d] for d in sorted(devs)]} class Renderer(renderer.Renderer): """Renders network information in a /etc/network/interfaces format.""" def __init__(self, config=None): if not config: config = {} self.eni_path = config.get('eni_path', 'etc/network/interfaces') self.eni_header = config.get('eni_header', None) self.netrules_path = config.get( 'netrules_path', 'etc/udev/rules.d/70-persistent-net.rules') def _render_route(self, route, indent=""): """When rendering routes for an iface, in some cases applying a route may result in the route command returning non-zero which produces some confusing output for users manually using ifup/ifdown[1]. To that end, we will optionally include an '|| true' postfix to each route line allowing users to work with ifup/ifdown without using --force option. We may at somepoint not want to emit this additional postfix, and add a 'strict' flag to this function. When called with strict=True, then we will not append the postfix. 1. http://askubuntu.com/questions/168033/ how-to-set-static-routes-in-ubuntu-server """ content = [] up = indent + "post-up route add" down = indent + "pre-down route del" or_true = " || true" mapping = { 'gateway': 'gw', 'metric': 'metric', } default_gw = '' if route['network'] == '0.0.0.0' and route['netmask'] == '0.0.0.0': default_gw = ' default' elif route['network'] == '::' and route['prefix'] == 0: default_gw = ' -A inet6 default' route_line = '' for k in ['network', 'gateway', 'metric']: if default_gw and k == 'network': continue if k == 'gateway': route_line += '%s %s %s' % (default_gw, mapping[k], route[k]) elif k in route: if k == 'network': if ':' in route[k]: route_line += ' -A inet6' else: route_line += ' -net' if 'prefix' in route: route_line += ' %s/%s' % (route[k], route['prefix']) else: route_line += ' %s %s' % (mapping[k], route[k]) content.append(up + route_line + or_true) content.append(down + route_line + or_true) return content def _render_iface(self, iface, render_hwaddress=False): sections = [] subnets = iface.get('subnets', {}) accept_ra = iface.pop('accept-ra', None) ethernet_wol = iface.pop('wakeonlan', None) if ethernet_wol: # Specify WOL setting 'g' for using "Magic Packet" iface['ethernet-wol'] = 'g' if subnets: for index, subnet in enumerate(subnets): ipv4_subnet_mtu = None iface['index'] = index iface['mode'] = subnet['type'] iface['control'] = subnet.get('control', 'auto') subnet_inet = 'inet' if subnet_is_ipv6(subnet): subnet_inet += '6' else: ipv4_subnet_mtu = subnet.get('mtu') iface['inet'] = subnet_inet if (subnet['type'] == 'dhcp4' or subnet['type'] == 'dhcp6' or subnet['type'] == 'ipv6_dhcpv6-stateful'): # Configure network settings using DHCP or DHCPv6 iface['mode'] = 'dhcp' if accept_ra is not None: # Accept router advertisements (0=off, 1=on) iface['accept_ra'] = '1' if accept_ra else '0' elif subnet['type'] == 'ipv6_dhcpv6-stateless': # Configure network settings using SLAAC from RAs iface['mode'] = 'auto' # Use stateless DHCPv6 (0=off, 1=on) iface['dhcp'] = '1' elif subnet['type'] == 'ipv6_slaac': # Configure network settings using SLAAC from RAs iface['mode'] = 'auto' # Use stateless DHCPv6 (0=off, 1=on) iface['dhcp'] = '0' elif subnet_is_ipv6(subnet): # mode might be static6, eni uses 'static' iface['mode'] = 'static' if accept_ra is not None: # Accept router advertisements (0=off, 1=on) iface['accept_ra'] = '1' if accept_ra else '0' # do not emit multiple 'auto $IFACE' lines as older (precise) # ifupdown complains if True in ["auto %s" % (iface['name']) in line for line in sections]: iface['control'] = 'alias' lines = list( _iface_start_entry( iface, index, render_hwaddress=render_hwaddress) + _iface_add_subnet(iface, subnet) + _iface_add_attrs(iface, index, ipv4_subnet_mtu) ) for route in subnet.get('routes', []): lines.extend(self._render_route(route, indent=" ")) sections.append(lines) else: # ifenslave docs say to auto the slave devices lines = [] if 'bond-master' in iface or 'bond-slaves' in iface: lines.append("auto {name}".format(**iface)) lines.append("iface {name} {inet} {mode}".format(**iface)) lines.extend( _iface_add_attrs(iface, index=0, ipv4_subnet_mtu=None)) sections.append(lines) return sections def _render_interfaces(self, network_state, render_hwaddress=False): '''Given state, emit etc/network/interfaces content.''' # handle 'lo' specifically as we need to insert the global dns entries # there (as that is the only interface that will be always up). lo = {'name': 'lo', 'type': 'physical', 'inet': 'inet', 'subnets': [{'type': 'loopback', 'control': 'auto'}]} for iface in network_state.iter_interfaces(): if iface.get('name') == "lo": lo = copy.deepcopy(iface) nameservers = network_state.dns_nameservers if nameservers: lo['subnets'][0]["dns_nameservers"] = (" ".join(nameservers)) searchdomains = network_state.dns_searchdomains if searchdomains: lo['subnets'][0]["dns_search"] = (" ".join(searchdomains)) # Apply a sort order to ensure that we write out the physical # interfaces first; this is critical for bonding order = { 'loopback': 0, 'physical': 1, 'infiniband': 2, 'bond': 3, 'bridge': 4, 'vlan': 5, } sections = [] sections.extend(self._render_iface(lo)) for iface in sorted(network_state.iter_interfaces(), key=lambda k: (order[k['type']], k['name'])): if iface.get('name') == "lo": continue sections.extend( self._render_iface(iface, render_hwaddress=render_hwaddress)) for route in network_state.iter_routes(): sections.append(self._render_route(route)) return '\n\n'.join(['\n'.join(s) for s in sections]) + "\n" def render_network_state(self, network_state, templates=None, target=None): fpeni = subp.target_path(target, self.eni_path) util.ensure_dir(os.path.dirname(fpeni)) header = self.eni_header if self.eni_header else "" util.write_file(fpeni, header + self._render_interfaces(network_state)) if self.netrules_path: netrules = subp.target_path(target, self.netrules_path) util.ensure_dir(os.path.dirname(netrules)) util.write_file(netrules, self._render_persistent_net(network_state)) def network_state_to_eni(network_state, header=None, render_hwaddress=False): # render the provided network state, return a string of equivalent eni eni_path = 'etc/network/interfaces' renderer = Renderer(config={ 'eni_path': eni_path, 'eni_header': header, 'netrules_path': None, }) if not header: header = "" if not header.endswith("\n"): header += "\n" contents = renderer._render_interfaces( network_state, render_hwaddress=render_hwaddress) return header + contents def available(target=None): expected = ['ifquery', 'ifup', 'ifdown'] search = ['/sbin', '/usr/sbin'] for p in expected: if not subp.which(p, search=search, target=target): return False eni = subp.target_path(target, 'etc/network/interfaces') if not os.path.isfile(eni): return False return True # vi: ts=4 expandtab
./Ninja\.