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# Copyright 2015-2017 Intel Corporation.
#
# 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.
"""Wrapper for an OVS bridge for convenient use of ``ovs-vsctl`` and
``ovs-ofctl`` on it.
Much of this code is based on ``ovs-lib.py`` from Open Stack:
https://github.com/openstack/neutron/blob/6eac1dc99124ca024d6a69b3abfa3bc69c735667/neutron/agent/linux/ovs_lib.py
"""
import logging
import string
import re
import netaddr
from tools import tasks
from conf import settings
_OVS_BRIDGE_NAME = settings.getValue('VSWITCH_BRIDGE_NAME')
_OVS_CMD_TIMEOUT = settings.getValue('OVS_CMD_TIMEOUT')
_CACHE_FILE_NAME = '/tmp/vsperf_flows_cache'
# only simple regex is used; validity of IPv4 is not checked by regex
_IPV4_REGEX = r"([0-9]{1,3}(\.[0-9]{1,3}){3}(\/[0-9]{1,2})?)"
class OFBase(object):
"""Add/remove/show datapaths using ``ovs-ofctl``.
"""
def __init__(self, timeout=_OVS_CMD_TIMEOUT):
"""Initialise logger.
:param timeout: Timeout to be used for each command
:returns: None
"""
self.logger = logging.getLogger(__name__)
self.timeout = timeout
# helpers
def run_vsctl(self, args, check_error=False):
"""Run ``ovs-vsctl`` with supplied arguments.
In case that timeout is set to -1, then ovs-vsctl
will be called with --no-wait option.
:param args: Arguments to pass to ``ovs-vsctl``
:param check_error: Throw exception on error
:return: None
"""
if self.timeout == -1:
cmd = ['sudo', settings.getValue('TOOLS')['ovs-vsctl'], '--no-wait'] + args
else:
cmd = ['sudo', settings.getValue('TOOLS')['ovs-vsctl'], '--timeout', str(self.timeout)] + args
return tasks.run_task(
cmd, self.logger, 'Running ovs-vsctl...', check_error)
def run_appctl(self, args, check_error=False):
"""Run ``ovs-appctl`` with supplied arguments.
:param args: Arguments to pass to ``ovs-appctl``
:param check_error: Throw exception on error
:return: None
"""
cmd = ['sudo', settings.getValue('TOOLS')['ovs-appctl'],
'--timeout',
str(self.timeout)] + args
return tasks.run_task(
cmd, self.logger, 'Running ovs-appctl...', check_error)
# datapath management
def add_br(self, br_name=_OVS_BRIDGE_NAME, params=None):
"""Add datapath.
:param br_name: Name of bridge
:return: Instance of :class OFBridge:
"""
if params is None:
params = []
self.logger.debug('add bridge')
self.run_vsctl(['add-br', br_name]+params)
return OFBridge(br_name, self.timeout)
def del_br(self, br_name=_OVS_BRIDGE_NAME):
"""Delete datapath.
:param br_name: Name of bridge
:return: None
"""
self.logger.debug('delete bridge')
self.run_vsctl(['del-br', br_name])
# Route and ARP functions
def add_route(self, network, destination):
"""Add route to tunneling routing table.
:param network: Network
:param destination: Gateway
:return: None
"""
self.logger.debug('add ovs/route')
self.run_appctl(['ovs/route/add', network, destination])
def set_tunnel_arp(self, ip_addr, mac_addr, br_name=_OVS_BRIDGE_NAME):
"""Add OVS arp entry for tunneling
:param ip: IP of bridge
:param mac_addr: MAC address of the bridge
:param br_name: Name of the bridge
:return: None
"""
self.logger.debug('tnl/arp/set')
self.run_appctl(['tnl/arp/set', br_name, ip_addr, mac_addr])
class OFBridge(OFBase):
"""Control a bridge instance using ``ovs-vsctl`` and ``ovs-ofctl``.
"""
def __init__(self, br_name=_OVS_BRIDGE_NAME, timeout=_OVS_CMD_TIMEOUT):
"""Initialise bridge.
:param br_name: Bridge name
:param timeout: Timeout to be used for each command
:returns: None
"""
super(OFBridge, self).__init__(timeout)
self.br_name = br_name
self._ports = {}
self._cache_file = None
# context manager
def __enter__(self):
"""Create datapath
:returns: self
"""
return self
def __exit__(self, type_, value, traceback):
"""Remove datapath.
"""
if not traceback:
self.destroy()
# helpers
def run_ofctl(self, args, check_error=False, timeout=None):
"""Run ``ovs-ofctl`` with supplied arguments.
:param args: Arguments to pass to ``ovs-ofctl``
:param check_error: Throw exception on error
:return: None
"""
tmp_timeout = self.timeout if timeout is None else timeout
cmd = ['sudo', settings.getValue('TOOLS')['ovs-ofctl'], '-O',
'OpenFlow13', '--timeout', str(tmp_timeout)] + args
return tasks.run_task(
cmd, self.logger, 'Running ovs-ofctl...', check_error)
def create(self, params=None):
"""Create bridge.
"""
if params is None:
params = []
self.logger.debug('create bridge')
self.add_br(self.br_name, params=params)
def destroy(self):
"""Destroy bridge.
"""
self.logger.debug('destroy bridge')
self.del_br(self.br_name)
def reset(self):
"""Reset bridge.
"""
self.logger.debug('reset bridge')
self.destroy()
self.create()
# port management
def add_port(self, port_name, params):
"""Add port to bridge.
:param port_name: Name of port
:param params: Additional list of parameters to add-port
:return: OpenFlow port number for the port
"""
self.logger.debug('add port')
self.run_vsctl(['add-port', self.br_name, port_name]+params)
# This is how port number allocation works currently
# This possibly will not work correctly if there are port deletions
# in between
of_port = len(self._ports) + 1
self._ports[port_name] = (of_port, params)
return of_port
def del_port(self, port_name):
"""Remove port from bridge.
:param port_name: Name of port
:return: None
"""
self.logger.debug('delete port')
self.run_vsctl(['del-port', self.br_name, port_name])
self._ports.pop(port_name)
def set_db_attribute(self, table_name, record, column, value):
"""Set database attribute.
:param table_name: Name of table
:param record: Name of record
:param column: Name of column
:param value: Value to set
:return: None
"""
self.logger.debug('set attribute')
self.run_vsctl(['set', table_name, record, '%s=%s' % (column, value)])
def get_ports(self):
"""Get the ports of this bridge
Structure of the returned ports dictionary is
'portname': (openflow_port_number, extra_parameters)
Example:
ports = {
'dpdkport0':
(1, ['--', 'set', 'Interface', 'dpdkport0', 'type=dpdk']),
'dpdkvhostport0':
(2, ['--', 'set', 'Interface', 'dpdkvhostport0',
'type=dpdkvhost'])
}
:return: Dictionary of ports
"""
return self._ports
def clear_db_attribute(self, table_name, record, column):
"""Clear database attribute.
:param table_name: Name of table
:param record: Name of record
:param column: Name of column
:return: None
"""
self.logger.debug('clear attribute')
self.run_vsctl(['clear', table_name, record, column])
# flow mangement
def add_flow(self, flow, cache='off'):
"""Add flow to bridge.
:param flow: Flow description as a dictionary
For flow dictionary structure, see function flow_key
:return: None
"""
# insert flows from cache into OVS if needed
if cache == 'flush':
if self._cache_file is None:
self.logger.error('flow cache flush called, but nothing is cached')
return
self.logger.debug('flows cached in %s will be added to the bridge', _CACHE_FILE_NAME)
self._cache_file.close()
self._cache_file = None
self.run_ofctl(['add-flows', self.br_name, _CACHE_FILE_NAME], timeout=600)
return
if not flow.get('actions'):
self.logger.error('add flow requires actions')
return
_flow_key = flow_key(flow)
self.logger.debug('key : %s', _flow_key)
# insert flow to the cache or OVS
if cache == 'on':
# create and open cache file if needed
if self._cache_file is None:
self._cache_file = open(_CACHE_FILE_NAME, 'w')
self._cache_file.write(_flow_key + '\n')
else:
self.run_ofctl(['add-flow', self.br_name, _flow_key])
def del_flow(self, flow):
"""Delete flow from bridge.
:param flow: Flow description as a dictionary
For flow dictionary structure, see function flow_key
flow=None will delete all flows
:return: None
"""
self.logger.debug('delete flow')
_flow_key = flow_key(flow)
self.logger.debug('key : %s', _flow_key)
self.run_ofctl(['del-flows', self.br_name, _flow_key])
def del_flows(self):
"""Delete all flows from bridge.
"""
self.logger.debug('delete flows')
self.run_ofctl(['del-flows', self.br_name])
def dump_flows(self):
"""Dump all flows from bridge.
"""
self.logger.debug('dump flows')
self.run_ofctl(['dump-flows', self.br_name], timeout=120)
def set_stp(self, enable=True):
"""
Set stp status
:param enable: Boolean to enable or disable stp
:return: None
"""
self.logger.debug(
'Setting stp on bridge to %s', 'on' if enable else 'off')
self.run_vsctl(
['set', 'Bridge', self.br_name, 'stp_enable={}'.format(
'true' if enable else 'false')])
def set_rstp(self, enable=True):
"""
Set rstp status
:param enable: Boolean to enable or disable rstp
:return: None
"""
self.logger.debug(
'Setting rstp on bridge to %s', 'on' if enable else 'off')
self.run_vsctl(
['set', 'Bridge', self.br_name, 'rstp_enable={}'.format(
'true' if enable else 'false')])
def bridge_info(self):
"""
Get bridge info
:return: Returns bridge info from list bridge command
"""
return self.run_vsctl(['list', 'bridge', self.br_name])
#
# helper functions
#
def flow_key(flow):
"""Model a flow key string for ``ovs-ofctl``.
Syntax taken from ``ovs-ofctl`` manpages:
http://openvswitch.org/cgi-bin/ovsman.cgi?page=utilities%2Fovs-ofctl.8
Example flow dictionary:
flow = {
'in_port': '1',
'idle_timeout': '0',
'actions': ['output:3']
}
:param flow: Flow description as a dictionary
:return: String
:rtype: str
"""
_flow_add_key = string.Template('${fields},action=${actions}')
_flow_del_key = string.Template('${fields}')
field_params = []
user_params = (x for x in list(flow.items()) if x[0] != 'actions')
for (key, default) in user_params:
field_params.append('%(field)s=%(value)s' %
{'field': key, 'value': default})
field_params_str = ','.join(field_params)
_flow_key_param = {
'fields': field_params_str,
}
# no actions == delete key
if 'actions' in flow:
_flow_key_param['actions'] = ','.join(flow['actions'])
flow_str = _flow_add_key.substitute(_flow_key_param)
else:
flow_str = _flow_del_key.substitute(_flow_key_param)
return flow_str
def flow_match(flow_dump, flow_src):
""" Compares two flows
:param flow_dump: string - a string with flow obtained by ovs-ofctl dump-flows
:param flow_src: string - a string with flow obtained by call of flow_key()
:return: boolean
"""
# perform unifications on both source and destination flows
flow_dump = flow_dump.replace('actions=', 'action=')
flow_src = flow_src.replace('actions=', 'action=')
# For complex flows the output of "ovs-ofctl dump-flows" can use the
# shorthand notation.
# eg if we set a flow with constraints on UDP ports like in the following
# {'dl_type': '0x0800', 'nw_proto': '17', 'in_port': '1', 'udp_dst': '0', 'actions': ['output:2']}
# dump-flows output can combine the first 2 constraints into 'udp' and translate
# 'udp_dst' into 'tp_dst' like
# "udp,in_port=1,tp_dst=0 actions=output:2".
# So the next replacements are needed.
flow_dump = flow_dump.replace('ip', 'dl_type=0x0800')
flow_dump = flow_dump.replace('tcp', 'nw_proto=6,dl_type=0x0800')
flow_dump = flow_dump.replace('udp', 'nw_proto=17,dl_type=0x0800')
flow_src = flow_src.replace('udp_src', 'tp_src')
flow_src = flow_src.replace('udp_dst', 'tp_dst')
flow_src = flow_src.replace('tcp_src', 'tp_src')
flow_src = flow_src.replace('tcp_dst', 'tp_dst')
flow_src = flow_src.replace('0x800', '0x0800')
# modify IPv4 CIDR to real network addresses
for ipv4_cidr in re.findall(_IPV4_REGEX, flow_src):
if ipv4_cidr[2]:
tmp_cidr = str(netaddr.IPNetwork(ipv4_cidr[0]).cidr)
flow_src = flow_src.replace(ipv4_cidr[0], tmp_cidr)
# split flow strings into lists of comparable elements
flow_dump_list = re.findall(r"[\w.:=()/]+", flow_dump)
flow_src_list = re.findall(r"[\w.:=()/]+", flow_src)
# check if all items from source flow are present in dump flow
flow_src_ctrl = list(flow_src_list)
for rule in flow_src_list:
if rule in flow_dump_list:
flow_src_ctrl.remove(rule)
return True if not flow_src_ctrl else False
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