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# Copyright 2019 VyOS maintainers and contributors <maintainers@vyos.io>
#
# This library is free software; you can redistribute it and/or
# modify it under the terms of the GNU Lesser General Public
# License as published by the Free Software Foundation; either
# version 2.1 of the License, or (at your option) any later version.
#
# This library 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
# Lesser General Public License for more details.
#
# You should have received a copy of the GNU Lesser General Public
# License along with this library. If not, see <http://www.gnu.org/licenses/>.
"""
A library for retrieving value dicts from VyOS configs in a declarative fashion.
"""
from enum import Enum
from copy import deepcopy
from vyos import ConfigError
from vyos.ifconfig import Interface
from vyos.validate import is_member
from vyos.util import ifname_from_config
def retrieve_config(path_hash, base_path, config):
"""
Retrieves a VyOS config as a dict according to a declarative description
The description dict, passed in the first argument, must follow this format:
``field_name : <path, type, [inner_options_dict]>``.
Supported types are: ``str`` (for normal nodes),
``list`` (returns a list of strings, for multi nodes),
``bool`` (returns True if valueless node exists),
``dict`` (for tag nodes, returns a dict indexed by node names,
according to description in the third item of the tuple).
Args:
path_hash (dict): Declarative description of the config to retrieve
base_path (list): A base path to prepend to all option paths
config (vyos.config.Config): A VyOS config object
Returns:
dict: config dict
"""
config_hash = {}
for k in path_hash:
if type(path_hash[k]) != tuple:
raise ValueError("In field {0}: expected a tuple, got a value {1}".format(k, str(path_hash[k])))
if len(path_hash[k]) < 2:
raise ValueError("In field {0}: field description must be a tuple of at least two items, path (list) and type".format(k))
path = path_hash[k][0]
if type(path) != list:
raise ValueError("In field {0}: path must be a list, not a {1}".format(k, type(path)))
typ = path_hash[k][1]
if type(typ) != type:
raise ValueError("In field {0}: type must be a type, not a {1}".format(k, type(typ)))
path = base_path + path
path_str = " ".join(path)
if typ == str:
config_hash[k] = config.return_value(path_str)
elif typ == list:
config_hash[k] = config.return_values(path_str)
elif typ == bool:
config_hash[k] = config.exists(path_str)
elif typ == dict:
try:
inner_hash = path_hash[k][2]
except IndexError:
raise ValueError("The type of the \'{0}\' field is dict, but inner options hash is missing from the tuple".format(k))
config_hash[k] = {}
nodes = config.list_nodes(path_str)
for node in nodes:
config_hash[k][node] = retrieve_config(inner_hash, path + [node], config)
return config_hash
def list_diff(first, second):
"""
Diff two dictionaries and return only unique items
"""
second = set(second)
return [item for item in first if item not in second]
def get_ethertype(ethertype_val):
if ethertype_val == '0x88A8':
return '802.1ad'
elif ethertype_val == '0x8100':
return '802.1q'
else:
raise ConfigError('invalid ethertype "{}"'.format(ethertype_val))
interface_default_data = {
'address': [],
'address_remove': [],
'description': '',
'dhcp_client_id': '',
'dhcp_hostname': '',
'dhcp_vendor_class_id': '',
'dhcpv6_prm_only': False,
'dhcpv6_temporary': False,
'dhcpv6_pd_interfaces': [],
'disable': False,
'disable_link_detect': 1,
'ip_disable_arp_filter': 1,
'ip_enable_arp_accept': 0,
'ip_enable_arp_announce': 0,
'ip_enable_arp_ignore': 0,
'ip_proxy_arp': 0,
'ipv6_accept_ra': 1,
'ipv6_autoconf': 0,
'ipv6_eui64_prefix': [],
'ipv6_eui64_prefix_remove': [],
'ipv6_forwarding': 1,
'ipv6_dup_addr_detect': 1,
'is_bridge_member': False,
'mac': '',
'mtu': 1500,
'vrf': ''
}
vlan_default = {
**interface_default_data,
'egress_qos': '',
'egress_qos_changed': False,
'ingress_qos': '',
'ingress_qos_changed': False,
'vif_c': {},
'vif_c_remove': []
}
# see: https://docs.python.org/3/library/enum.html#functional-api
disable = Enum('disable','none was now both')
def disable_state(conf, check=[3,5,7]):
"""
return if and how a particual section of the configuration is has disable'd
using "disable" including if it was disabled by one of its parent.
check: a list of the level we should check, here 7,5 and 3
interfaces ethernet eth1 vif-s 1 vif-c 2 disable
interfaces ethernet eth1 vif 1 disable
interfaces ethernet eth1 disable
it returns an enum (none, was, now, both)
"""
# save where we are in the config
current_level = conf.get_level()
# logic to figure out if the interface (or one of it parent is disabled)
eff_disable = False
act_disable = False
levels = check[:]
working_level = current_level[:]
while levels:
position = len(working_level)
if not position:
break
if position not in levels:
working_level = working_level[:-1]
continue
levels.remove(position)
conf.set_level(working_level)
working_level = working_level[:-1]
eff_disable = eff_disable or conf.exists_effective('disable')
act_disable = act_disable or conf.exists('disable')
conf.set_level(current_level)
# how the disabling changed
if eff_disable and act_disable:
return disable.both
if eff_disable and not eff_disable:
return disable.was
if not eff_disable and act_disable:
return disable.now
return disable.none
def intf_to_dict(conf, default):
"""
Common used function which will extract VLAN related information from config
and represent the result as Python dictionary.
Function call's itself recursively if a vif-s/vif-c pair is detected.
"""
intf = deepcopy(default)
intf['intf'] = ifname_from_config(conf)
# retrieve interface description
if conf.exists(['description']):
intf['description'] = conf.return_value(['description'])
# get DHCP client identifier
if conf.exists(['dhcp-options', 'client-id']):
intf['dhcp_client_id'] = conf.return_value(['dhcp-options', 'client-id'])
# DHCP client host name (overrides the system host name)
if conf.exists(['dhcp-options', 'host-name']):
intf['dhcp_hostname'] = conf.return_value(['dhcp-options', 'host-name'])
# DHCP client vendor identifier
if conf.exists(['dhcp-options', 'vendor-class-id']):
intf['dhcp_vendor_class_id'] = conf.return_value(
['dhcp-options', 'vendor-class-id'])
# DHCPv6 only acquire config parameters, no address
if conf.exists(['dhcpv6-options', 'parameters-only']):
intf['dhcpv6_prm_only'] = True
# DHCPv6 prefix delegation (RFC3633)
current_level = conf.get_level()
if conf.exists(['dhcpv6-options', 'delegate']):
for interface in conf.list_nodes(['dhcpv6-options', 'delegate']):
conf.set_level(current_level + ['dhcpv6-options', 'delegate', interface])
pd = {
'ifname': interface,
'sla_id': '',
'sla_len': '',
'if_id': ''
}
if conf.exists(['sla-id']):
pd['sla_id'] = conf.return_value(['sla-id'])
if conf.exists(['sla-len']):
pd['sla_len'] = conf.return_value(['sla-len'])
if conf.exists(['interface-id']):
pd['if_id'] = conf.return_value(['interface-id'])
intf['dhcpv6_pd_interfaces'].append(pd)
# re-set config level
conf.set_level(current_level)
# DHCPv6 temporary IPv6 address
if conf.exists(['dhcpv6-options', 'temporary']):
intf['dhcpv6_temporary'] = True
# ignore link state changes
if conf.exists(['disable-link-detect']):
intf['disable_link_detect'] = 2
# ARP filter configuration
if conf.exists(['ip', 'disable-arp-filter']):
intf['ip_disable_arp_filter'] = 0
# ARP enable accept
if conf.exists(['ip', 'enable-arp-accept']):
intf['ip_enable_arp_accept'] = 1
# ARP enable announce
if conf.exists(['ip', 'enable-arp-announce']):
intf['ip_enable_arp_announce'] = 1
# ARP enable ignore
if conf.exists(['ip', 'enable-arp-ignore']):
intf['ip_enable_arp_ignore'] = 1
# Enable Proxy ARP
if conf.exists(['ip', 'enable-proxy-arp']):
intf['ip_proxy_arp'] = 1
# Enable acquisition of IPv6 address using stateless autoconfig (SLAAC)
if conf.exists(['ipv6', 'address', 'autoconf']):
intf['ipv6_autoconf'] = 1
# Disable IPv6 forwarding on this interface
if conf.exists(['ipv6', 'disable-forwarding']):
intf['ipv6_forwarding'] = 0
# check if interface is member of a bridge
intf['is_bridge_member'] = is_member(conf, intf['intf'], 'bridge')
# IPv6 Duplicate Address Detection (DAD) tries
if conf.exists(['ipv6', 'dup-addr-detect-transmits']):
intf['ipv6_dup_addr_detect'] = int(
conf.return_value(['ipv6', 'dup-addr-detect-transmits']))
# Media Access Control (MAC) address
if conf.exists(['mac']):
intf['mac'] = conf.return_value(['mac'])
# Maximum Transmission Unit (MTU)
if conf.exists(['mtu']):
intf['mtu'] = int(conf.return_value(['mtu']))
# retrieve VRF instance
if conf.exists(['vrf']):
intf['vrf'] = conf.return_value(['vrf'])
# egress QoS
if conf.exists(['egress-qos']):
intf['egress_qos'] = conf.return_value(['egress-qos'])
# egress changes QoS require VLAN interface recreation
if conf.return_effective_value(['egress-qos']):
if intf['egress_qos'] != conf.return_effective_value(['egress-qos']):
intf['egress_qos_changed'] = True
# ingress QoS
if conf.exists(['ingress-qos']):
intf['ingress_qos'] = conf.return_value(['ingress-qos'])
# ingress changes QoS require VLAN interface recreation
if conf.return_effective_value(['ingress-qos']):
if intf['ingress_qos'] != conf.return_effective_value(['ingress-qos']):
intf['ingress_qos_changed'] = True
# Get the interface addresses
intf['address'] = conf.return_values(['address'])
# addresses to remove - difference between effective and working config
intf['address_remove'] = list_diff(
conf.return_effective_values(['address']), intf['address'])
# Get prefixes for IPv6 addressing based on MAC address (EUI-64)
intf['ipv6_eui64_prefix'] = conf.return_values(['ipv6', 'address', 'eui64'])
# EUI64 to remove - difference between effective and working config
intf['ipv6_eui64_prefix_remove'] = list_diff(
conf.return_effective_values(['ipv6', 'address', 'eui64']),
intf['ipv6_eui64_prefix'])
# Determine if the interface should be disabled
disabled = disable_state(conf)
if disabled == disable.both:
# was and is still disabled
intf['disable'] = True
elif disabled == disable.now:
# it is now disable but was not before
intf['disable'] = True
elif disabled == disable.was:
# it was disable but not anymore
intf['disable'] = False
else:
# normal change
intf['disable'] = False
# Remove the default link-local address if no-default-link-local is set,
# if member of a bridge or if disabled (it may not have a MAC if it's down)
if ( conf.exists(['ipv6', 'address', 'no-default-link-local'])
or intf.get('is_bridge_member') or intf['disable'] ):
intf['ipv6_eui64_prefix_remove'].append('fe80::/64')
else:
# add the link-local by default to make IPv6 work
intf['ipv6_eui64_prefix'].append('fe80::/64')
# If MAC has changed, remove and re-add all IPv6 EUI64 addresses
try:
interface = Interface(intf['intf'], create=False)
if intf['mac'] and intf['mac'] != interface.get_mac():
intf['ipv6_eui64_prefix_remove'] += intf['ipv6_eui64_prefix']
except Exception:
# If the interface does not exist, it could not have changed
pass
# to make IPv6 SLAAC and DHCPv6 work with forwarding=1,
# accept_ra must be 2
if intf['ipv6_autoconf'] or 'dhcpv6' in intf['address']:
intf['ipv6_accept_ra'] = 2
return intf, disable
def add_to_dict(conf, disabled, ifdict, section, key):
"""
parse a section of vif/vif-s/vif-c and add them to the dict
follow the convention to:
* use the "key" for what to add
* use the "key" what what to remove
conf: is the Config() already at the level we need to parse
disabled: is a disable enum so we know how to handle to data
intf: if the interface dictionary
section: is the section name to parse (vif/vif-s/vif-c)
key: is the dict key to use (vif/vifs/vifc)
"""
if not conf.exists(section):
return ifdict
effect = conf.list_effective_nodes(section)
active = conf.list_nodes(section)
# the section to parse for vlan
sections = []
# determine which interfaces to add or remove based on disable state
if disabled == disable.both:
# was and is still disabled
ifdict[f'{key}_remove'] = []
elif disabled == disable.now:
# it is now disable but was not before
ifdict[f'{key}_remove'] = effect
elif disabled == disable.was:
# it was disable but not anymore
ifdict[f'{key}_remove'] = []
sections = active
else:
# normal change
# get interfaces (currently effective) - to determine which
# interface is no longer present and needs to be removed
ifdict[f'{key}_remove'] = list_diff(effect, active)
sections = active
current_level = conf.get_level()
# add each section, the key must already exists
for s in sections:
# set config level to vif interface
conf.set_level(current_level + [section, s])
# add the vlan config as a key (vlan id) - value (config) pair
ifdict[key][s] = vlan_to_dict(conf)
# re-set configuration level to leave things as found
conf.set_level(current_level)
return ifdict
def vlan_to_dict(conf, default=vlan_default):
vlan, disabled = intf_to_dict(conf, default)
# if this is a not within vif-s node, we are done
if conf.get_level()[-2] != 'vif-s':
return vlan
# ethertype is mandatory on vif-s nodes and only exists here!
# ethertype uses a default of 0x88A8
tmp = '0x88A8'
if conf.exists('ethertype'):
tmp = conf.return_value('ethertype')
vlan['ethertype'] = get_ethertype(tmp)
# check if there is a Q-in-Q vlan customer interface
# and call this function recursively
add_to_dict(conf, disable, vlan, 'vif-c', 'vif_c')
return vlan
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