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# This file is part of cloud-init. See LICENSE file for license information.
import os
import re
import six
from cloudinit.distros.parsers import resolv_conf
from cloudinit import util
from . import renderer
from .network_state import subnet_is_ipv6
def _make_header(sep='#'):
lines = [
"Created by cloud-init on instance boot automatically, do not edit.",
"",
]
for i in range(0, len(lines)):
if lines[i]:
lines[i] = sep + " " + lines[i]
else:
lines[i] = sep
return "\n".join(lines)
def _is_default_route(route):
if route['network'] == '::' and route['netmask'] == 0:
return True
if route['network'] == '0.0.0.0' and route['netmask'] == '0.0.0.0':
return True
return False
def _quote_value(value):
if re.search(r"\s", value):
# This doesn't handle complex cases...
if value.startswith('"') and value.endswith('"'):
return value
else:
return '"%s"' % value
else:
return value
class ConfigMap(object):
"""Sysconfig like dictionary object."""
# Why does redhat prefer yes/no to true/false??
_bool_map = {
True: 'yes',
False: 'no',
}
def __init__(self):
self._conf = {}
def __setitem__(self, key, value):
self._conf[key] = value
def __getitem__(self, key):
return self._conf[key]
def drop(self, key):
self._conf.pop(key, None)
def __len__(self):
return len(self._conf)
def to_string(self):
buf = six.StringIO()
buf.write(_make_header())
if self._conf:
buf.write("\n")
for key in sorted(self._conf.keys()):
value = self._conf[key]
if isinstance(value, bool):
value = self._bool_map[value]
if not isinstance(value, six.string_types):
value = str(value)
buf.write("%s=%s\n" % (key, _quote_value(value)))
return buf.getvalue()
class Route(ConfigMap):
"""Represents a route configuration."""
route_fn_tpl_ipv4 = '%(base)s/network-scripts/route-%(name)s'
route_fn_tpl_ipv6 = '%(base)s/network-scripts/route6-%(name)s'
def __init__(self, route_name, base_sysconf_dir):
super(Route, self).__init__()
self.last_idx = 1
self.has_set_default_ipv4 = False
self.has_set_default_ipv6 = False
self._route_name = route_name
self._base_sysconf_dir = base_sysconf_dir
def copy(self):
r = Route(self._route_name, self._base_sysconf_dir)
r._conf = self._conf.copy()
r.last_idx = self.last_idx
r.has_set_default_ipv4 = self.has_set_default_ipv4
r.has_set_default_ipv6 = self.has_set_default_ipv6
return r
@property
def path_ipv4(self):
return self.route_fn_tpl_ipv4 % ({'base': self._base_sysconf_dir,
'name': self._route_name})
@property
def path_ipv6(self):
return self.route_fn_tpl_ipv6 % ({'base': self._base_sysconf_dir,
'name': self._route_name})
def is_ipv6_route(self, address):
return ':' in address
def to_string(self, proto="ipv4"):
# only accept ipv4 and ipv6
if proto not in ['ipv4', 'ipv6']:
raise ValueError("Unknown protocol '%s'" % (str(proto)))
buf = six.StringIO()
buf.write(_make_header())
if self._conf:
buf.write("\n")
# need to reindex IPv4 addresses
# (because Route can contain a mix of IPv4 and IPv6)
reindex = -1
for key in sorted(self._conf.keys()):
if 'ADDRESS' in key:
index = key.replace('ADDRESS', '')
address_value = str(self._conf[key])
# only accept combinations:
# if proto ipv6 only display ipv6 routes
# if proto ipv4 only display ipv4 routes
# do not add ipv6 routes if proto is ipv4
# do not add ipv4 routes if proto is ipv6
# (this array will contain a mix of ipv4 and ipv6)
if proto == "ipv4" and not self.is_ipv6_route(address_value):
netmask_value = str(self._conf['NETMASK' + index])
gateway_value = str(self._conf['GATEWAY' + index])
# increase IPv4 index
reindex = reindex + 1
buf.write("%s=%s\n" % ('ADDRESS' + str(reindex),
_quote_value(address_value)))
buf.write("%s=%s\n" % ('GATEWAY' + str(reindex),
_quote_value(gateway_value)))
buf.write("%s=%s\n" % ('NETMASK' + str(reindex),
_quote_value(netmask_value)))
elif proto == "ipv6" and self.is_ipv6_route(address_value):
netmask_value = str(self._conf['NETMASK' + index])
gateway_value = str(self._conf['GATEWAY' + index])
buf.write("%s/%s via %s\n" % (address_value,
netmask_value,
gateway_value))
return buf.getvalue()
class NetInterface(ConfigMap):
"""Represents a sysconfig/networking-script (and its config + children)."""
iface_fn_tpl = '%(base)s/network-scripts/ifcfg-%(name)s'
iface_types = {
'ethernet': 'Ethernet',
'bond': 'Bond',
'bridge': 'Bridge',
}
def __init__(self, iface_name, base_sysconf_dir, kind='ethernet'):
super(NetInterface, self).__init__()
self.children = []
self.routes = Route(iface_name, base_sysconf_dir)
self.kind = kind
self._iface_name = iface_name
self._conf['DEVICE'] = iface_name
self._base_sysconf_dir = base_sysconf_dir
@property
def name(self):
return self._iface_name
@name.setter
def name(self, iface_name):
self._iface_name = iface_name
self._conf['DEVICE'] = iface_name
@property
def kind(self):
return self._kind
@kind.setter
def kind(self, kind):
if kind not in self.iface_types:
raise ValueError(kind)
self._kind = kind
self._conf['TYPE'] = self.iface_types[kind]
@property
def path(self):
return self.iface_fn_tpl % ({'base': self._base_sysconf_dir,
'name': self.name})
def copy(self, copy_children=False, copy_routes=False):
c = NetInterface(self.name, self._base_sysconf_dir, kind=self._kind)
c._conf = self._conf.copy()
if copy_children:
c.children = list(self.children)
if copy_routes:
c.routes = self.routes.copy()
return c
class Renderer(renderer.Renderer):
"""Renders network information in a /etc/sysconfig format."""
# See: https://access.redhat.com/documentation/en-US/\
# Red_Hat_Enterprise_Linux/6/html/Deployment_Guide/\
# s1-networkscripts-interfaces.html (or other docs for
# details about this)
iface_defaults = tuple([
('ONBOOT', True),
('USERCTL', False),
('NM_CONTROLLED', False),
('BOOTPROTO', 'none'),
])
# If these keys exist, then their values will be used to form
# a BONDING_OPTS grouping; otherwise no grouping will be set.
bond_tpl_opts = tuple([
('bond_mode', "mode=%s"),
('bond_xmit_hash_policy', "xmit_hash_policy=%s"),
('bond_miimon', "miimon=%s"),
])
bridge_opts_keys = tuple([
('bridge_stp', 'STP'),
('bridge_ageing', 'AGEING'),
('bridge_bridgeprio', 'PRIO'),
])
def __init__(self, config=None):
if not config:
config = {}
self.sysconf_dir = config.get('sysconf_dir', 'etc/sysconfig')
self.netrules_path = config.get(
'netrules_path', 'etc/udev/rules.d/70-persistent-net.rules')
self.dns_path = config.get('dns_path', 'etc/resolv.conf')
@classmethod
def _render_iface_shared(cls, iface, iface_cfg):
for k, v in cls.iface_defaults:
iface_cfg[k] = v
for (old_key, new_key) in [('mac_address', 'HWADDR'), ('mtu', 'MTU')]:
old_value = iface.get(old_key)
if old_value is not None:
iface_cfg[new_key] = old_value
@classmethod
def _render_subnets(cls, iface_cfg, subnets):
# setting base values
iface_cfg['BOOTPROTO'] = 'none'
# modifying base values according to subnets
for i, subnet in enumerate(subnets, start=len(iface_cfg.children)):
subnet_type = subnet.get('type')
if subnet_type == 'dhcp6':
iface_cfg['IPV6INIT'] = True
iface_cfg['DHCPV6C'] = True
iface_cfg['BOOTPROTO'] = 'dhcp'
elif subnet_type in ['dhcp4', 'dhcp']:
iface_cfg['BOOTPROTO'] = 'dhcp'
elif subnet_type == 'static':
# grep BOOTPROTO sysconfig.txt -A2 | head -3
# BOOTPROTO=none|bootp|dhcp
# 'bootp' or 'dhcp' cause a DHCP client
# to run on the device. Any other
# value causes any static configuration
# in the file to be applied.
# ==> the following should not be set to 'static'
# but should remain 'none'
# if iface_cfg['BOOTPROTO'] == 'none':
# iface_cfg['BOOTPROTO'] = 'static'
if subnet_is_ipv6(subnet):
iface_cfg['IPV6INIT'] = True
else:
raise ValueError("Unknown subnet type '%s' found"
" for interface '%s'" % (subnet_type,
iface_cfg.name))
# set IPv4 and IPv6 static addresses
ipv4_index = -1
ipv6_index = -1
for i, subnet in enumerate(subnets, start=len(iface_cfg.children)):
subnet_type = subnet.get('type')
if subnet_type == 'dhcp6':
continue
elif subnet_type in ['dhcp4', 'dhcp']:
continue
elif subnet_type == 'static':
if subnet_is_ipv6(subnet):
ipv6_index = ipv6_index + 1
if 'netmask' in subnet and str(subnet['netmask']) != "":
ipv6_cidr = (subnet['address'] +
'/' +
str(subnet['netmask']))
else:
ipv6_cidr = subnet['address']
if ipv6_index == 0:
iface_cfg['IPV6ADDR'] = ipv6_cidr
elif ipv6_index == 1:
iface_cfg['IPV6ADDR_SECONDARIES'] = ipv6_cidr
else:
iface_cfg['IPV6ADDR_SECONDARIES'] = (
iface_cfg['IPV6ADDR_SECONDARIES'] +
" " + ipv6_cidr)
else:
ipv4_index = ipv4_index + 1
if ipv4_index == 0:
iface_cfg['IPADDR'] = subnet['address']
if 'netmask' in subnet:
iface_cfg['NETMASK'] = subnet['netmask']
else:
iface_cfg['IPADDR' + str(ipv4_index)] = \
subnet['address']
if 'netmask' in subnet:
iface_cfg['NETMASK' + str(ipv4_index)] = \
subnet['netmask']
@classmethod
def _render_subnet_routes(cls, iface_cfg, route_cfg, subnets):
for i, subnet in enumerate(subnets, start=len(iface_cfg.children)):
for route in subnet.get('routes', []):
is_ipv6 = subnet.get('ipv6')
if _is_default_route(route):
if (
(subnet.get('ipv4') and
route_cfg.has_set_default_ipv4) or
(subnet.get('ipv6') and
route_cfg.has_set_default_ipv6)
):
raise ValueError("Duplicate declaration of default "
"route found for interface '%s'"
% (iface_cfg.name))
# NOTE(harlowja): ipv6 and ipv4 default gateways
gw_key = 'GATEWAY0'
nm_key = 'NETMASK0'
addr_key = 'ADDRESS0'
# The owning interface provides the default route.
#
# TODO(harlowja): add validation that no other iface has
# also provided the default route?
iface_cfg['DEFROUTE'] = True
if 'gateway' in route:
if is_ipv6:
iface_cfg['IPV6_DEFAULTGW'] = route['gateway']
route_cfg.has_set_default_ipv6 = True
else:
iface_cfg['GATEWAY'] = route['gateway']
route_cfg.has_set_default_ipv4 = True
else:
gw_key = 'GATEWAY%s' % route_cfg.last_idx
nm_key = 'NETMASK%s' % route_cfg.last_idx
addr_key = 'ADDRESS%s' % route_cfg.last_idx
route_cfg.last_idx += 1
for (old_key, new_key) in [('gateway', gw_key),
('netmask', nm_key),
('network', addr_key)]:
if old_key in route:
route_cfg[new_key] = route[old_key]
@classmethod
def _render_bonding_opts(cls, iface_cfg, iface):
bond_opts = []
for (bond_key, value_tpl) in cls.bond_tpl_opts:
# Seems like either dash or underscore is possible?
bond_keys = [bond_key, bond_key.replace("_", "-")]
for bond_key in bond_keys:
if bond_key in iface:
bond_value = iface[bond_key]
if isinstance(bond_value, (tuple, list)):
bond_value = " ".join(bond_value)
bond_opts.append(value_tpl % (bond_value))
break
if bond_opts:
iface_cfg['BONDING_OPTS'] = " ".join(bond_opts)
@classmethod
def _render_physical_interfaces(cls, network_state, iface_contents):
physical_filter = renderer.filter_by_physical
for iface in network_state.iter_interfaces(physical_filter):
iface_name = iface['name']
iface_subnets = iface.get("subnets", [])
iface_cfg = iface_contents[iface_name]
route_cfg = iface_cfg.routes
cls._render_subnets(iface_cfg, iface_subnets)
cls._render_subnet_routes(iface_cfg, route_cfg, iface_subnets)
@classmethod
def _render_bond_interfaces(cls, network_state, iface_contents):
bond_filter = renderer.filter_by_type('bond')
for iface in network_state.iter_interfaces(bond_filter):
iface_name = iface['name']
iface_cfg = iface_contents[iface_name]
cls._render_bonding_opts(iface_cfg, iface)
iface_master_name = iface['bond-master']
iface_cfg['MASTER'] = iface_master_name
iface_cfg['SLAVE'] = True
# Ensure that the master interface (and any of its children)
# are actually marked as being bond types...
master_cfg = iface_contents[iface_master_name]
master_cfgs = [master_cfg]
master_cfgs.extend(master_cfg.children)
for master_cfg in master_cfgs:
master_cfg['BONDING_MASTER'] = True
master_cfg.kind = 'bond'
@staticmethod
def _render_vlan_interfaces(network_state, iface_contents):
vlan_filter = renderer.filter_by_type('vlan')
for iface in network_state.iter_interfaces(vlan_filter):
iface_name = iface['name']
iface_cfg = iface_contents[iface_name]
iface_cfg['VLAN'] = True
iface_cfg['PHYSDEV'] = iface_name[:iface_name.rfind('.')]
@staticmethod
def _render_dns(network_state, existing_dns_path=None):
content = resolv_conf.ResolvConf("")
if existing_dns_path and os.path.isfile(existing_dns_path):
content = resolv_conf.ResolvConf(util.load_file(existing_dns_path))
for nameserver in network_state.dns_nameservers:
content.add_nameserver(nameserver)
for searchdomain in network_state.dns_searchdomains:
content.add_search_domain(searchdomain)
return "\n".join([_make_header(';'), str(content)])
@classmethod
def _render_bridge_interfaces(cls, network_state, iface_contents):
bridge_filter = renderer.filter_by_type('bridge')
for iface in network_state.iter_interfaces(bridge_filter):
iface_name = iface['name']
iface_cfg = iface_contents[iface_name]
iface_cfg.kind = 'bridge'
for old_key, new_key in cls.bridge_opts_keys:
if old_key in iface:
iface_cfg[new_key] = iface[old_key]
# Is this the right key to get all the connected interfaces?
for bridged_iface_name in iface.get('bridge_ports', []):
# Ensure all bridged interfaces are correctly tagged
# as being bridged to this interface.
bridged_cfg = iface_contents[bridged_iface_name]
bridged_cfgs = [bridged_cfg]
bridged_cfgs.extend(bridged_cfg.children)
for bridge_cfg in bridged_cfgs:
bridge_cfg['BRIDGE'] = iface_name
@classmethod
def _render_sysconfig(cls, base_sysconf_dir, network_state):
'''Given state, return /etc/sysconfig files + contents'''
iface_contents = {}
for iface in network_state.iter_interfaces():
if iface['type'] == "loopback":
continue
iface_name = iface['name']
iface_cfg = NetInterface(iface_name, base_sysconf_dir)
cls._render_iface_shared(iface, iface_cfg)
iface_contents[iface_name] = iface_cfg
cls._render_physical_interfaces(network_state, iface_contents)
cls._render_bond_interfaces(network_state, iface_contents)
cls._render_vlan_interfaces(network_state, iface_contents)
cls._render_bridge_interfaces(network_state, iface_contents)
contents = {}
for iface_name, iface_cfg in iface_contents.items():
if iface_cfg or iface_cfg.children:
contents[iface_cfg.path] = iface_cfg.to_string()
for iface_cfg in iface_cfg.children:
if iface_cfg:
contents[iface_cfg.path] = iface_cfg.to_string()
if iface_cfg.routes:
contents[iface_cfg.routes.path_ipv4] = \
iface_cfg.routes.to_string("ipv4")
contents[iface_cfg.routes.path_ipv6] = \
iface_cfg.routes.to_string("ipv6")
return contents
def render_network_state(self, network_state, target=None):
file_mode = 0o644
base_sysconf_dir = util.target_path(target, self.sysconf_dir)
for path, data in self._render_sysconfig(base_sysconf_dir,
network_state).items():
util.write_file(path, data, file_mode)
if self.dns_path:
dns_path = util.target_path(target, self.dns_path)
resolv_content = self._render_dns(network_state,
existing_dns_path=dns_path)
util.write_file(dns_path, resolv_content, file_mode)
if self.netrules_path:
netrules_content = self._render_persistent_net(network_state)
netrules_path = util.target_path(target, self.netrules_path)
util.write_file(netrules_path, netrules_content, file_mode)
# always write /etc/sysconfig/network configuration
sysconfig_path = util.target_path(target, "etc/sysconfig/network")
netcfg = [_make_header(), 'NETWORKING=yes']
if network_state.use_ipv6:
netcfg.append('NETWORKING_IPV6=yes')
netcfg.append('IPV6_AUTOCONF=no')
util.write_file(sysconfig_path, "\n".join(netcfg) + "\n", file_mode)
def available(target=None):
expected = ['ifup', 'ifdown']
search = ['/sbin', '/usr/sbin']
for p in expected:
if not util.which(p, search=search, target=target):
return False
expected_paths = [
'etc/sysconfig/network-scripts/network-functions',
'etc/sysconfig/network-scripts/ifdown-eth']
for p in expected_paths:
if not os.path.isfile(util.target_path(target, p)):
return False
return True
# vi: ts=4 expandtab
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