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# This file is part of cloud-init. See LICENSE file for license information. import copy import glob import logging import os import re from typing import Optional from cloudinit import subp, util from cloudinit.net import ParserError, renderer, subnet_is_ipv6 from cloudinit.net.network_state import NetworkState 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 isinstance(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 isinstance(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 isinstance(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 configuration 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 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_data(...) 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" elif route.get("prefix") == 32: route_line += " -host" 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: NetworkState, templates: Optional[dict] = None, target=None, ) -> 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, content=self._render_persistent_net(network_state), preserve_mode=True, ) 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