Current File : //usr/share/netplan/netplan/cli/utils.py
# Copyright (C) 2018-2020 Canonical, Ltd.
# Author: Mathieu Trudel-Lapierre <mathieu.trudel-lapierre@canonical.com>
# Author: Łukasz 'sil2100' Zemczak <lukasz.zemczak@canonical.com>
# Author: Lukas 'slyon' Märdian <lukas.maerdian@canonical.com>
#
# 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; version 3.
#
# 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 <http://www.gnu.org/licenses/>.
import sys
import os
import logging
import argparse
import subprocess
import netifaces
import fnmatch
import re
import netplan.libnetplan as np
from netplan.configmanager import ConfigurationError
from netplan.libnetplan import LibNetplanException
NM_SERVICE_NAME = 'NetworkManager.service'
NM_SNAP_SERVICE_NAME = 'snap.network-manager.networkmanager.service'
config_errors = (ConfigurationError, LibNetplanException, RuntimeError)
def get_generator_path():
return os.environ.get('NETPLAN_GENERATE_PATH', '/usr/libexec/netplan/generate')
def is_nm_snap_enabled():
return subprocess.call(['systemctl', '--quiet', 'is-enabled', NM_SNAP_SERVICE_NAME], stderr=subprocess.DEVNULL) == 0
def nmcli(args): # pragma: nocover (covered in autopkgtest)
# 'nmcli' could be /usr/bin/nmcli or /snap/bin/nmcli -> /snap/bin/network-manager.nmcli
# PATH is defined in cli/core.py
subprocess.check_call(['nmcli'] + args, stdout=subprocess.DEVNULL, stderr=subprocess.DEVNULL)
def nmcli_out(args: list) -> str: # pragma: nocover (covered in autopkgtest)
# 'nmcli' could be /usr/bin/nmcli or /snap/bin/nmcli -> /snap/bin/network-manager.nmcli
# PATH is defined in cli/core.py
return subprocess.check_output(['nmcli'] + args, text=True)
def nm_running(): # pragma: nocover (covered in autopkgtest)
'''Check if NetworkManager is running'''
try:
nmcli(['general'])
return True
except (OSError, subprocess.SubprocessError):
return False
def nm_interfaces(paths, devices):
pat = re.compile('^interface-name=(.*)$')
interfaces = set()
for path in paths:
with open(path, 'r') as f:
for line in f:
m = pat.match(line)
if m:
# Expand/match globbing of interface names, to real devices
interfaces.update(set(fnmatch.filter(devices, m.group(1))))
break # skip to next file
return interfaces
def systemctl_network_manager(action, sync=False):
# If the network-manager snap is installed use its service
# name rather than the one of the deb packaged NetworkManager
if is_nm_snap_enabled():
return systemctl(action, [NM_SNAP_SERVICE_NAME], sync)
return systemctl(action, [NM_SERVICE_NAME], sync) # pragma: nocover (covered in autopkgtest)
def systemctl(action: str, services: list, sync: bool = False):
if len(services) >= 1:
command = ['systemctl', action]
if not sync:
command.append('--no-block')
command.extend(services)
subprocess.check_call(command)
def networkd_interfaces():
interfaces = set()
out = subprocess.check_output(['networkctl', '--no-pager', '--no-legend'], text=True)
for line in out.splitlines():
s = line.strip().split(' ')
if s[0].isnumeric() and s[-1] not in ['unmanaged', 'linger']:
interfaces.add(s[0])
return interfaces
def networkctl_reload():
subprocess.check_call(['networkctl', 'reload'])
def networkctl_reconfigure(interfaces):
if len(interfaces) >= 1:
subprocess.check_call(['networkctl', 'reconfigure'] + list(interfaces))
def systemctl_is_active(unit_pattern):
'''Return True if at least one matching unit is running'''
if subprocess.call(['systemctl', '--quiet', 'is-active', unit_pattern]) == 0:
return True
return False
def systemctl_is_masked(unit_pattern):
'''Return True if output is "masked" or "masked-runtime"'''
res = subprocess.run(['systemctl', 'is-enabled', unit_pattern],
stdout=subprocess.PIPE, stderr=subprocess.PIPE,
text=True)
if res.returncode > 0 and 'masked' in res.stdout:
return True
return False
def systemctl_daemon_reload():
'''Reload systemd unit files from disk and re-calculate its dependencies'''
subprocess.check_call(['systemctl', 'daemon-reload'])
def ip_addr_flush(iface):
'''Flush all IP addresses of a given interface via iproute2'''
subprocess.check_call(['ip', 'addr', 'flush', iface], stdout=subprocess.DEVNULL, stderr=subprocess.DEVNULL)
def get_interface_driver_name(interface, only_down=False): # pragma: nocover (covered in autopkgtest)
devdir = os.path.join('/sys/class/net', interface)
if only_down:
try:
with open(os.path.join(devdir, 'operstate')) as f:
state = f.read().strip()
if state != 'down':
logging.debug('device %s operstate is %s, not changing', interface, state)
return None
except IOError as e:
logging.error('Cannot determine operstate of %s: %s', interface, str(e))
return None
try:
driver = os.path.realpath(os.path.join(devdir, 'device', 'driver'))
driver_name = os.path.basename(driver)
except IOError as e:
logging.debug('Cannot replug %s: cannot read link %s/device: %s', interface, devdir, str(e))
return None
return driver_name
def get_interface_macaddress(interface):
# return an empty list (and string) if no LL data can be found
link = netifaces.ifaddresses(interface).get(netifaces.AF_LINK, [{}])[0]
return link.get('addr', '')
def find_matching_iface(interfaces: list, netdef):
assert isinstance(netdef, np.NetDefinition)
assert netdef.has_match
matches = list(filter(lambda itf: netdef.match_interface(
itf_name=itf,
itf_driver=get_interface_driver_name(itf),
itf_mac=get_interface_macaddress(itf)), interfaces))
# Return current name of unique matched interface, if available
if len(matches) != 1:
logging.info(matches)
return None
return matches[0]
class NetplanCommand(argparse.Namespace):
def __init__(self, command_id, description, leaf=True, testing=False):
self.command_id = command_id
self.description = description
self.leaf_command = leaf
self.testing = testing
self._args = None
self.debug = False
self.breakpoint = False
self.commandclass = None
self.subcommands = {}
self.subcommand = None
self.func = None
self.parser = argparse.ArgumentParser(prog="%s %s" % (sys.argv[0], command_id),
description=description,
add_help=True)
self.parser.add_argument('--debug', action='store_true',
help='Enable debug messages')
self.parser.add_argument('--breakpoint', action='store_true',
help=argparse.SUPPRESS)
if not leaf:
self.subparsers = self.parser.add_subparsers(title='Available commands',
metavar='', dest='subcommand')
p_help = self.subparsers.add_parser('help',
description='Show this help message',
help='Show this help message')
p_help.set_defaults(func=self.print_usage)
def update(self, args):
self._args = args
def parse_args(self):
ns, self._args = self.parser.parse_known_args(args=self._args, namespace=self)
if not self.subcommand and not self.leaf_command:
print('You need to specify a command', file=sys.stderr)
self.print_usage()
def run_command(self):
if self.commandclass:
self.commandclass.update(self._args)
# TODO: (cyphermox) this is actually testable in tests/cli.py; add it.
if self.leaf_command and 'help' in self._args: # pragma: nocover (covered in autopkgtest)
self.print_usage()
if self.breakpoint: # pragma: nocover (cannot be automatically tested)
breakpoint()
self.func()
def print_usage(self):
self.parser.print_help(file=sys.stderr)
sys.exit(os.EX_USAGE)
def _add_subparser_from_class(self, name, commandclass):
instance = commandclass()
self.subcommands[name] = {}
self.subcommands[name]['class'] = name
self.subcommands[name]['instance'] = instance
if instance.testing:
if not os.environ.get('ENABLE_TEST_COMMANDS', None):
return
p = self.subparsers.add_parser(instance.command_id,
description=instance.description,
help=instance.description,
add_help=False)
p.set_defaults(func=instance.run, commandclass=instance)
self.subcommands[name]['parser'] = p
def _import_subcommands(self, submodules):
import inspect
for name, obj in inspect.getmembers(submodules):
if inspect.isclass(obj) and issubclass(obj, NetplanCommand):
self._add_subparser_from_class(name, obj)
Mini Shell