%PDF- %PDF-
Direktori : /usr/lib/python3/dist-packages/cloudinit/net/ |
Current File : //usr/lib/python3/dist-packages/cloudinit/net/ephemeral.py |
# This file is part of cloud-init. See LICENSE file for license information. """Module for ephemeral network context managers """ import contextlib import logging from functools import partial from typing import Any, Callable, Dict, List, Optional import cloudinit.net as net import cloudinit.netinfo as netinfo from cloudinit.net.dhcp import NoDHCPLeaseError, maybe_perform_dhcp_discovery from cloudinit.subp import ProcessExecutionError LOG = logging.getLogger(__name__) class EphemeralIPv4Network: """Context manager which sets up temporary static network configuration. No operations are performed if the provided interface already has the specified configuration. This can be verified with the connectivity_url_data. If unconnected, bring up the interface with valid ip, prefix and broadcast. If router is provided setup a default route for that interface. Upon context exit, clean up the interface leaving no configuration behind. """ def __init__( self, distro, interface, ip, prefix_or_mask, broadcast, interface_addrs_before_dhcp: dict, router=None, static_routes=None, ): """Setup context manager and validate call signature. @param interface: Name of the network interface to bring up. @param ip: IP address to assign to the interface. @param prefix_or_mask: Either netmask of the format X.X.X.X or an int prefix. @param broadcast: Broadcast address for the IPv4 network. @param router: Optionally the default gateway IP. @param static_routes: Optionally a list of static routes from DHCP """ if not all([interface, ip, prefix_or_mask, broadcast]): raise ValueError( "Cannot init network on {0} with {1}/{2} and bcast {3}".format( interface, ip, prefix_or_mask, broadcast ) ) try: self.prefix = net.ipv4_mask_to_net_prefix(prefix_or_mask) except ValueError as e: raise ValueError( "Cannot setup network, invalid prefix or " "netmask: {0}".format(e) ) from e self.interface = interface self.ip = ip self.broadcast = broadcast self.router = router self.static_routes = static_routes # List of commands to run to cleanup state. self.cleanup_cmds: List[Callable] = [] self.distro = distro self.cidr = f"{self.ip}/{self.prefix}" self.interface_addrs_before_dhcp = interface_addrs_before_dhcp.get( self.interface, {} ) def __enter__(self): """Set up ephemeral network if interface is not connected. This context manager handles the lifecycle of the network interface, addresses, routes, etc """ try: try: self._bringup_device() except ProcessExecutionError as e: if "File exists" not in str( e.stderr ) and "Address already assigned" not in str(e.stderr): raise # rfc3442 requires us to ignore the router config *if* # classless static routes are provided. # # https://tools.ietf.org/html/rfc3442 # # If the DHCP server returns both a Classless Static Routes # option and a Router option, the DHCP client MUST ignore # the Router option. # # Similarly, if the DHCP server returns both a Classless # Static Routes option and a Static Routes option, the DHCP # client MUST ignore the Static Routes option. if self.static_routes: self._bringup_static_routes() elif self.router: self._bringup_router() except ProcessExecutionError: self.__exit__(None, None, None) raise def __exit__(self, excp_type, excp_value, excp_traceback): """Teardown anything we set up.""" for cmd in self.cleanup_cmds: cmd() def _bringup_device(self): """Perform the ip commands to fully set up the device. Dhcp clients behave differently in how they leave link state and ip address assignment. Attempt assigning address and setting up link if needed to be done. Set cleanup_cmds to return the interface state to how it was prior to execution of the dhcp client. """ LOG.debug( "Attempting setup of ephemeral network on %s with %s brd %s", self.interface, self.cidr, self.broadcast, ) interface_addrs_after_dhcp = netinfo.netdev_info().get( self.interface, {} ) has_link = interface_addrs_after_dhcp.get("up") had_link = self.interface_addrs_before_dhcp.get("up") has_ip = self.ip in [ ip.get("ip") for ip in interface_addrs_after_dhcp.get("ipv4", {}) ] had_ip = self.ip in [ ip.get("ip") for ip in self.interface_addrs_before_dhcp.get("ipv4", {}) ] if has_ip: LOG.debug( "Skip adding ip address: %s already has address %s", self.interface, self.ip, ) else: self.distro.net_ops.add_addr( self.interface, self.cidr, self.broadcast ) if has_link: LOG.debug( "Skip bringing up network link: interface %s is already up", self.interface, ) else: self.distro.net_ops.link_up(self.interface, family="inet") if had_link: LOG.debug( "Not queueing link down: link [%s] was up prior before " "receiving a dhcp lease", self.interface, ) else: self.cleanup_cmds.append( partial( self.distro.net_ops.link_down, self.interface, family="inet", ) ) if had_ip: LOG.debug( "Not queueing address removal: address %s was assigned before " "receiving a dhcp lease", self.ip, ) else: self.cleanup_cmds.append( partial( self.distro.net_ops.del_addr, self.interface, self.cidr ) ) def _bringup_static_routes(self): # static_routes = [("169.254.169.254/32", "130.56.248.255"), # ("0.0.0.0/0", "130.56.240.1")] for net_address, gateway in self.static_routes: # Use "append" rather than "add" since the DHCP server may provide # rfc3442 classless static routes with multiple routes to the same # subnet via different routers or local interface addresses. # # In this scenario, `ip r add` fails. # # RHBZ: #2003231 self.distro.net_ops.append_route( self.interface, net_address, gateway ) self.cleanup_cmds.insert( 0, partial( self.distro.net_ops.del_route, self.interface, net_address, gateway=gateway, ), ) def _bringup_router(self): """Perform the ip commands to fully setup the router if needed.""" # Check if a default route exists and exit if it does out = self.distro.net_ops.get_default_route() if "default" in out: LOG.debug( "Skip ephemeral route setup. %s already has default route: %s", self.interface, out.strip(), ) return self.distro.net_ops.add_route( self.interface, self.router, source_address=self.ip ) self.cleanup_cmds.insert( 0, partial( self.distro.net_ops.del_route, self.interface, self.router, source_address=self.ip, ), ) self.distro.net_ops.add_route( self.interface, "default", gateway=self.router ) self.cleanup_cmds.insert( 0, partial(self.distro.net_ops.del_route, self.interface, "default"), ) class EphemeralIPv6Network: """Context manager which sets up a ipv6 link local address The linux kernel assigns link local addresses on link-up, which is sufficient for link-local communication. """ def __init__(self, distro, interface): """Setup context manager and validate call signature. @param interface: Name of the network interface to bring up. @param ip: IP address to assign to the interface. @param prefix: IPv6 uses prefixes, not netmasks """ if not interface: raise ValueError("Cannot init network on {0}".format(interface)) self.interface = interface self.distro = distro def __enter__(self): """linux kernel does autoconfiguration even when autoconf=0 https://www.kernel.org/doc/html/latest/networking/ipv6.html """ if net.read_sys_net(self.interface, "operstate") != "up": self.distro.net_ops.link_up(self.interface) def __exit__(self, *_args): """No need to set the link to down state""" class EphemeralDHCPv4: def __init__( self, distro, iface=None, connectivity_url_data: Optional[Dict[str, Any]] = None, dhcp_log_func=None, ): self.iface = iface self._ephipv4: Optional[EphemeralIPv4Network] = None self.lease: Optional[Dict[str, Any]] = None self.dhcp_log_func = dhcp_log_func self.connectivity_url_data = connectivity_url_data self.distro = distro self.interface_addrs_before_dhcp = netinfo.netdev_info() def __enter__(self): """Setup sandboxed dhcp context, unless connectivity_url can already be reached.""" if self.connectivity_url_data: if net.has_url_connectivity(self.connectivity_url_data): LOG.debug( "Skip ephemeral DHCP setup, instance has connectivity" " to %s", self.connectivity_url_data, ) return return self.obtain_lease() def __exit__(self, excp_type, excp_value, excp_traceback): """Teardown sandboxed dhcp context.""" self.clean_network() def clean_network(self): """Exit _ephipv4 context to teardown of ip configuration performed.""" self.lease = None if self._ephipv4: self._ephipv4.__exit__(None, None, None) def obtain_lease(self): """Perform dhcp discovery in a sandboxed environment if possible. @return: A dict representing dhcp options on the most recent lease obtained from the dhclient discovery if run, otherwise an error is raised. @raises: NoDHCPLeaseError if no leases could be obtained. """ if self.lease: return self.lease self.lease = maybe_perform_dhcp_discovery( self.distro, self.iface, self.dhcp_log_func ) if not self.lease: raise NoDHCPLeaseError() LOG.debug( "Received dhcp lease on %s for %s/%s", self.lease["interface"], self.lease["fixed-address"], self.lease["subnet-mask"], ) nmap = { "interface": "interface", "ip": "fixed-address", "prefix_or_mask": "subnet-mask", "broadcast": "broadcast-address", "static_routes": [ "rfc3442-classless-static-routes", "classless-static-routes", "static_routes", "unknown-121", ], "router": "routers", } kwargs = self.extract_dhcp_options_mapping(nmap) if not kwargs["broadcast"]: kwargs["broadcast"] = net.mask_and_ipv4_to_bcast_addr( kwargs["prefix_or_mask"], kwargs["ip"] ) if kwargs["static_routes"]: kwargs["static_routes"] = ( self.distro.dhcp_client.parse_static_routes( kwargs["static_routes"] ) ) ephipv4 = EphemeralIPv4Network( self.distro, interface_addrs_before_dhcp=self.interface_addrs_before_dhcp, **kwargs, ) ephipv4.__enter__() self._ephipv4 = ephipv4 return self.lease def extract_dhcp_options_mapping(self, nmap): result = {} for internal_reference, lease_option_names in nmap.items(): if isinstance(lease_option_names, list): self.get_first_option_value( internal_reference, lease_option_names, result ) else: result[internal_reference] = self.lease.get(lease_option_names) return result def get_first_option_value( self, internal_mapping, lease_option_names, result ): for different_names in lease_option_names: if not result.get(internal_mapping): result[internal_mapping] = self.lease.get(different_names) class EphemeralIPNetwork: """Combined ephemeral context manager for IPv4 and IPv6 Either ipv4 or ipv6 ephemeral network may fail to initialize, but if either succeeds, then this context manager will not raise exception. This allows either ipv4 or ipv6 ephemeral network to succeed, but requires that error handling for networks unavailable be done within the context. """ def __init__( self, distro, interface, ipv6: bool = False, ipv4: bool = True, ): self.interface = interface self.ipv4 = ipv4 self.ipv6 = ipv6 self.stack = contextlib.ExitStack() self.state_msg: str = "" self.distro = distro def __enter__(self): if not (self.ipv4 or self.ipv6): # no ephemeral network requested, but this object still needs to # function as a context manager return self exceptions = [] ephemeral_obtained = False if self.ipv4: try: self.stack.enter_context( EphemeralDHCPv4( self.distro, self.interface, ) ) ephemeral_obtained = True except (ProcessExecutionError, NoDHCPLeaseError) as e: LOG.info("Failed to bring up %s for ipv4.", self) exceptions.append(e) if self.ipv6: try: self.stack.enter_context( EphemeralIPv6Network( self.distro, self.interface, ) ) ephemeral_obtained = True if exceptions or not self.ipv4: self.state_msg = "using link-local ipv6" except ProcessExecutionError as e: LOG.info("Failed to bring up %s for ipv6.", self) exceptions.append(e) if not ephemeral_obtained: # Ephemeral network setup failed in linkup for both ipv4 and # ipv6. Raise only the first exception found. LOG.error( "Failed to bring up EphemeralIPNetwork. " "Datasource setup cannot continue" ) raise exceptions[0] return self def __exit__(self, *_args): self.stack.close()