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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/>.
from copy import deepcopy
from vyos import ConfigError
from vyos.ifconfig.interface import Interface
@Interface.register
class VXLANIf(Interface):
"""
The VXLAN protocol is a tunnelling protocol designed to solve the
problem of limited VLAN IDs (4096) in IEEE 802.1q. With VXLAN the
size of the identifier is expanded to 24 bits (16777216).
VXLAN is described by IETF RFC 7348, and has been implemented by a
number of vendors. The protocol runs over UDP using a single
destination port. This document describes the Linux kernel tunnel
device, there is also a separate implementation of VXLAN for
Openvswitch.
Unlike most tunnels, a VXLAN is a 1 to N network, not just point to
point. A VXLAN device can learn the IP address of the other endpoint
either dynamically in a manner similar to a learning bridge, or make
use of statically-configured forwarding entries.
For more information please refer to:
https://www.kernel.org/doc/Documentation/networking/vxlan.txt
"""
default = {
'type': 'vxlan',
'group': '',
'port': 8472, # The Linux implementation of VXLAN pre-dates
# the IANA's selection of a standard destination port
'remote': '',
'source_address': '',
'source_interface': '',
'vni': 0
}
definition = {
**Interface.definition,
**{
'section': 'vxlan',
'prefixes': ['vxlan', ],
'bridgeable': True,
}
}
options = Interface.options + \
['group', 'remote', 'source_interface', 'port', 'vni', 'source_address']
mapping = {
'ifname': 'add',
'vni': 'id',
'port': 'dstport',
'source_address': 'local',
'source_interface': 'dev',
}
def _create(self):
cmdline = ['ifname', 'type', 'vni', 'port']
if self.config['source_address']:
cmdline.append('source_address')
if self.config['remote']:
cmdline.append('remote')
if self.config['group'] or self.config['source_interface']:
if self.config['group'] and self.config['source_interface']:
cmdline.append('group')
cmdline.append('source_interface')
else:
ifname = self.config['ifname']
raise ConfigError(
f'VXLAN "{ifname}" is missing mandatory underlay multicast'
'group or source interface for a multicast network.')
cmd = 'ip link'
for key in cmdline:
value = self.config.get(key, '')
if not value:
continue
cmd += ' {} {}'.format(self.mapping.get(key, key), value)
self._cmd(cmd)
@classmethod
def get_config(cls):
"""
VXLAN interfaces require a configuration when they are added using
iproute2. This static method will provide the configuration dictionary
used by this class.
Example:
>> dict = VXLANIf().get_config()
"""
return deepcopy(cls.default)
def update(self, config):
""" General helper function which works on a dictionary retrived by
get_config_dict(). It's main intention is to consolidate the scattered
interface setup code and provide a single point of entry when workin
on any interface. """
# call base class first
super().update(config)
# Enable/Disable of an interface must always be done at the end of the
# derived class to make use of the ref-counting set_admin_state()
# function. We will only enable the interface if 'up' was called as
# often as 'down'. This is required by some interface implementations
# as certain parameters can only be changed when the interface is
# in admin-down state. This ensures the link does not flap during
# reconfiguration.
state = 'down' if 'disable' in config else 'up'
self.set_admin_state(state)
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