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# Copyright 2015-2018 Intel Corporation., Tieto
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
"""VSwitch controller for Physical to Tunnel Endpoint to Physical deployment
"""
from core.vswitch_controller import IVswitchController
from vswitches.utils import add_ports_to_flow
from conf import settings as S
from tools import tasks
class VswitchControllerOP2P(IVswitchController):
"""VSwitch controller for OP2P deployment scenario.
"""
def __init__(self, deployment, vswitch_class, traffic, tunnel_operation=None):
"""See IVswitchController for general description
"""
super().__init__(deployment, vswitch_class, traffic)
self._tunnel_operation = tunnel_operation
def setup(self):
""" Sets up the switch for overlay P2P (tunnel encap or decap)
"""
self._logger.debug('Setting up %s', str(self._tunnel_operation))
if self._tunnel_operation == "encapsulation":
self._setup_encap()
else:
if str(S.getValue('VSWITCH')).endswith('Vanilla'):
self._setup_decap_vanilla()
else:
self._setup_decap()
def _setup_encap(self):
""" Sets up the switch for overlay P2P encapsulation test
Create 2 bridges br0 (integration bridge) and br-ext and a VXLAN port
for encapsulation.
"""
self._logger.debug('Setup using %s', str(self._vswitch_class))
try:
self._vswitch.start()
bridge = S.getValue('TUNNEL_INTEGRATION_BRIDGE')
bridge_ext = S.getValue('TUNNEL_EXTERNAL_BRIDGE')
bridge_ext_ip = S.getValue('TUNNEL_EXTERNAL_BRIDGE_IP')
tg_port2_mac = S.getValue('TRAFFICGEN_PORT2_MAC')
vtep_ip2 = S.getValue('VTEP_IP2')
self._vswitch.add_switch(bridge)
tasks.run_task(['sudo', 'ip', 'addr', 'add',
S.getValue('VTEP_IP1'), 'dev', bridge],
self._logger, 'Assign ' +
S.getValue('VTEP_IP1') + ' to ' + bridge,
False)
tasks.run_task(['sudo', 'ip', 'link', 'set', 'dev', bridge, 'up'],
self._logger, 'Bring up ' + bridge, False)
tunnel_type = self._traffic['tunnel_type']
self._vswitch.add_switch(bridge_ext)
(_, phy1_number) = self._vswitch.add_phy_port(bridge)
(_, phy2_number) = self._vswitch.add_tunnel_port(bridge,
vtep_ip2,
tunnel_type)
self._vswitch.add_phy_port(bridge_ext)
tasks.run_task(['sudo', 'ip', 'addr', 'add',
bridge_ext_ip,
'dev', bridge_ext], self._logger, 'Assign ' +
bridge_ext_ip + ' to ' + bridge_ext)
tasks.run_task(['sudo', 'ip', 'link', 'set', 'dev', bridge_ext,
'up'], self._logger,
'Set ' + bridge_ext + 'status to up')
self._vswitch.add_route(bridge,
S.getValue('VTEP_IP2_SUBNET'),
bridge_ext)
if str(S.getValue('VSWITCH')).endswith('Vanilla'):
tasks.run_task(['sudo', 'arp', '-s', vtep_ip2, tg_port2_mac],
self._logger,
'Set ' + bridge_ext + ' status to up')
else:
self._vswitch.set_tunnel_arp(vtep_ip2,
tg_port2_mac,
bridge_ext)
# Test is unidirectional for now
self._vswitch.del_flow(bridge)
flow1 = add_ports_to_flow(S.getValue('OVS_FLOW_TEMPLATE'), phy1_number,
phy2_number)
self._vswitch.add_flow(bridge, flow1)
# enable MAC learning mode at external bridge
flow_ext = S.getValue('OVS_FLOW_TEMPLATE').copy()
flow_ext.update({'actions': ['NORMAL']})
self._vswitch.add_flow(bridge_ext, flow_ext)
except:
self._vswitch.stop()
raise
def _setup_decap(self):
""" Sets up the switch for overlay P2P decapsulation test
"""
self._logger.debug('Setup using %s', str(self._vswitch_class))
try:
self._vswitch.start()
bridge = S.getValue('TUNNEL_INTEGRATION_BRIDGE')
bridge_ext = S.getValue('TUNNEL_EXTERNAL_BRIDGE')
bridge_ext_ip = S.getValue('TUNNEL_EXTERNAL_BRIDGE_IP')
tgen_ip1 = S.getValue('TRAFFICGEN_PORT1_IP')
self._vswitch.add_switch(bridge)
tasks.run_task(['sudo', 'ip', 'addr', 'add',
S.getValue('VTEP_IP1'), 'dev', bridge],
self._logger, 'Assign ' +
S.getValue('VTEP_IP1') + ' to ' + bridge, False)
tasks.run_task(['sudo', 'ip', 'link', 'set', 'dev', bridge, 'up'],
self._logger, 'Bring up ' + bridge, False)
tunnel_type = self._traffic['tunnel_type']
self._vswitch.add_switch(bridge_ext)
self._vswitch.add_phy_port(bridge)
(_, phy2_number) = self._vswitch.add_phy_port(bridge_ext)
if tunnel_type == "vxlan":
vxlan_vni = 'options:key=' + S.getValue('VXLAN_VNI')
(_, phy3_number) = self._vswitch.add_tunnel_port(bridge_ext,
tgen_ip1,
tunnel_type,
params=[vxlan_vni])
else:
(_, phy3_number) = self._vswitch.add_tunnel_port(bridge_ext,
tgen_ip1,
tunnel_type)
tasks.run_task(['sudo', 'ip', 'addr', 'add',
bridge_ext_ip,
'dev', bridge_ext],
self._logger, 'Assign ' +
bridge_ext_ip
+ ' to ' + bridge_ext)
tasks.run_task(['sudo', 'ip', 'link', 'set', 'dev', bridge_ext,
'up'],
self._logger,
'Set ' + bridge_ext + ' status to up')
self._vswitch.set_tunnel_arp(tgen_ip1,
S.getValue('TRAFFICGEN_PORT1_MAC'),
bridge)
# Test is unidirectional for now
self._vswitch.del_flow(bridge_ext)
flow1 = add_ports_to_flow(S.getValue('OVS_FLOW_TEMPLATE'), phy3_number,
phy2_number)
self._vswitch.add_flow(bridge_ext, flow1)
except:
self._vswitch.stop()
raise
def _setup_decap_vanilla(self):
""" Sets up the switch for overlay P2P decapsulation test
"""
self._logger.debug('Setup decap vanilla %s', str(self._vswitch_class))
try:
self._vswitch.start()
bridge = S.getValue('TUNNEL_INTEGRATION_BRIDGE')
bridge_ext = S.getValue('TUNNEL_EXTERNAL_BRIDGE')
bridge_ext_ip = S.getValue('TUNNEL_EXTERNAL_BRIDGE_IP')
tgen_ip1 = S.getValue('TRAFFICGEN_PORT1_IP')
self._vswitch.add_switch(bridge)
tasks.run_task(['sudo', 'ip', 'addr', 'add',
S.getValue('TUNNEL_INT_BRIDGE_IP'), 'dev', bridge],
self._logger, 'Assign ' +
S.getValue('TUNNEL_INT_BRIDGE_IP') + ' to ' + bridge, False)
tasks.run_task(['sudo', 'ip', 'link', 'set', 'dev', bridge, 'up'],
self._logger, 'Bring up ' + bridge, False)
tunnel_type = self._traffic['tunnel_type']
self._vswitch.add_switch(bridge_ext)
self._vswitch.add_phy_port(bridge_ext)
(_, phy2_number) = self._vswitch.add_phy_port(bridge)
if tunnel_type == "vxlan":
vxlan_vni = 'options:key=' + S.getValue('VXLAN_VNI')
self._vswitch.add_tunnel_port(bridge, tgen_ip1, tunnel_type,
params=[vxlan_vni])
else:
self._vswitch.add_tunnel_port(bridge, tgen_ip1, tunnel_type)
tasks.run_task(['sudo', 'ip', 'addr', 'add',
bridge_ext_ip,
'dev', bridge_ext],
self._logger, 'Assign ' +
bridge_ext_ip
+ ' to ' + bridge_ext)
tasks.run_task(['sudo', 'ip', 'link', 'set', 'dev', bridge_ext,
'up'],
self._logger,
'Set ' + bridge_ext + ' status to up')
tg_port2_mac = S.getValue('TRAFFICGEN_PORT2_MAC')
vtep_ip2 = S.getValue('TRAFFICGEN_PORT2_IP')
self._vswitch.set_tunnel_arp(vtep_ip2,
tg_port2_mac,
bridge_ext)
self._vswitch.add_route(bridge,
S.getValue('VTEP_IP2_SUBNET'),
bridge)
tasks.run_task(['sudo', 'arp', '-s', vtep_ip2, tg_port2_mac],
self._logger,
'Set ' + bridge_ext + ' status to up')
# Test is unidirectional for now
self._vswitch.del_flow(bridge_ext)
flow1 = add_ports_to_flow(S.getValue('OVS_FLOW_TEMPLATE'), phy2_number, 'LOCAL')
self._vswitch.add_flow(bridge_ext, flow1)
except:
self._vswitch.stop()
raise
def stop(self):
"""Tears down the switch created in setup().
"""
self._logger.debug('Stop using %s', str(self._vswitch_class))
self._vswitch.stop()
def get_ports_info(self):
"""See IVswitchController for description
"""
self._logger.debug('get_ports_info for bridges: %s, %s',
S.getValue('TUNNEL_INTEGRATION_BRIDGE'),
S.getValue('TUNNEL_EXTERNAL_BRIDGE'))
return self._vswitch.get_ports(
S.getValue('TUNNEL_INTEGRATION_BRIDGE')) +\
self._vswitch.get_ports(
S.getValue('TUNNEL_EXTERNAL_BRIDGE'))
def dump_vswitch_connections(self):
"""See IVswitchController for description
"""
self._vswitch.dump_connections(S.getValue('TUNNEL_INTEGRATION_BRIDGE'))
self._vswitch.dump_connections(S.getValue('TUNNEL_EXTERNAL_BRIDGE'))
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