vmware-nsx/quantum/plugins/linuxbridge/agent/linuxbridge_quantum_agent.py
Mark McLoughlin b5990a7bd7 Use oslo-config-2013.1b3
The cfg API is now available via the oslo-config library, so switch to
it and remove the copied-and-pasted version.

Add the 2013.1b3 tarball to tools/pip-requires - this will be changed
to 'oslo-config>=2013.1' when oslo-config is published to pypi. This
will happen in time for grizzly final.

Remove the 'deps = pep8' from tox.ini as it means all the other deps
get installed with easy_install which can't install oslo-config from
the URL.

Retain dummy cfg.py file until keystoneclient middleware has been
updated (I18c450174277c8e2d15ed93879da6cd92074c27a).

Change-Id: I4815aeb8a9341a31a250e920157f15ee15cfc5bc
2013-02-17 17:33:05 +00:00

627 lines
25 KiB
Python
Executable File

#!/usr/bin/env python
# vim: tabstop=4 shiftwidth=4 softtabstop=4
#
# Copyright 2012 Cisco Systems, Inc.
# All Rights Reserved.
#
# 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.
#
#
# Performs per host Linux Bridge configuration for Quantum.
# Based on the structure of the OpenVSwitch agent in the
# Quantum OpenVSwitch Plugin.
# @author: Sumit Naiksatam, Cisco Systems, Inc.
import os
import sys
import time
import eventlet
from oslo.config import cfg
import pyudev
from quantum.agent.linux import ip_lib
from quantum.agent.linux import utils
from quantum.agent import rpc as agent_rpc
from quantum.agent import securitygroups_rpc as sg_rpc
from quantum.common import config as logging_config
from quantum.common import topics
from quantum.common import utils as q_utils
from quantum import context
from quantum.openstack.common import log as logging
from quantum.openstack.common.rpc import dispatcher
# NOTE (e0ne): this import is needed for config init
from quantum.plugins.linuxbridge.common import config
from quantum.plugins.linuxbridge.common import constants as lconst
LOG = logging.getLogger(__name__)
BRIDGE_NAME_PREFIX = "brq"
TAP_INTERFACE_PREFIX = "tap"
BRIDGE_FS = "/sys/devices/virtual/net/"
BRIDGE_NAME_PLACEHOLDER = "bridge_name"
BRIDGE_INTERFACES_FS = BRIDGE_FS + BRIDGE_NAME_PLACEHOLDER + "/brif/"
DEVICE_NAME_PLACEHOLDER = "device_name"
BRIDGE_PORT_FS_FOR_DEVICE = BRIDGE_FS + DEVICE_NAME_PLACEHOLDER + "/brport"
class LinuxBridgeManager:
def __init__(self, interface_mappings, root_helper):
self.interface_mappings = interface_mappings
self.root_helper = root_helper
self.ip = ip_lib.IPWrapper(self.root_helper)
self.udev = pyudev.Context()
monitor = pyudev.Monitor.from_netlink(self.udev)
monitor.filter_by('net')
def device_exists(self, device):
"""Check if ethernet device exists."""
try:
utils.execute(['ip', 'link', 'show', 'dev', device],
root_helper=self.root_helper)
except RuntimeError:
return False
return True
def interface_exists_on_bridge(self, bridge, interface):
directory = '/sys/class/net/%s/brif' % bridge
for filename in os.listdir(directory):
if filename == interface:
return True
return False
def get_bridge_name(self, network_id):
if not network_id:
LOG.warning(_("Invalid Network ID, will lead to incorrect bridge"
"name"))
bridge_name = BRIDGE_NAME_PREFIX + network_id[0:11]
return bridge_name
def get_subinterface_name(self, physical_interface, vlan_id):
if not vlan_id:
LOG.warning(_("Invalid VLAN ID, will lead to incorrect "
"subinterface name"))
subinterface_name = '%s.%s' % (physical_interface, vlan_id)
return subinterface_name
def get_tap_device_name(self, interface_id):
if not interface_id:
LOG.warning(_("Invalid Interface ID, will lead to incorrect "
"tap device name"))
tap_device_name = TAP_INTERFACE_PREFIX + interface_id[0:11]
return tap_device_name
def get_all_quantum_bridges(self):
quantum_bridge_list = []
bridge_list = os.listdir(BRIDGE_FS)
for bridge in bridge_list:
if bridge.startswith(BRIDGE_NAME_PREFIX):
quantum_bridge_list.append(bridge)
return quantum_bridge_list
def get_interfaces_on_bridge(self, bridge_name):
if self.device_exists(bridge_name):
bridge_interface_path = BRIDGE_INTERFACES_FS.replace(
BRIDGE_NAME_PLACEHOLDER, bridge_name)
return os.listdir(bridge_interface_path)
def get_bridge_for_tap_device(self, tap_device_name):
bridges = self.get_all_quantum_bridges()
for bridge in bridges:
interfaces = self.get_interfaces_on_bridge(bridge)
if tap_device_name in interfaces:
return bridge
return None
def is_device_on_bridge(self, device_name):
if not device_name:
return False
else:
bridge_port_path = BRIDGE_PORT_FS_FOR_DEVICE.replace(
DEVICE_NAME_PLACEHOLDER, device_name)
return os.path.exists(bridge_port_path)
def ensure_vlan_bridge(self, network_id, physical_interface, vlan_id):
"""Create a vlan and bridge unless they already exist."""
interface = self.ensure_vlan(physical_interface, vlan_id)
bridge_name = self.get_bridge_name(network_id)
self.ensure_bridge(bridge_name, interface)
return interface
def get_interface_details(self, interface):
device = self.ip.device(interface)
ips = device.addr.list(scope='global')
# Update default gateway if necessary
gateway = device.route.get_gateway(scope='global')
return ips, gateway
def ensure_flat_bridge(self, network_id, physical_interface):
"""Create a non-vlan bridge unless it already exists."""
bridge_name = self.get_bridge_name(network_id)
ips, gateway = self.get_interface_details(physical_interface)
self.ensure_bridge(bridge_name, physical_interface, ips, gateway)
return physical_interface
def ensure_local_bridge(self, network_id):
"""Create a local bridge unless it already exists."""
bridge_name = self.get_bridge_name(network_id)
self.ensure_bridge(bridge_name)
def ensure_vlan(self, physical_interface, vlan_id):
"""Create a vlan unless it already exists."""
interface = self.get_subinterface_name(physical_interface, vlan_id)
if not self.device_exists(interface):
LOG.debug(_("Creating subinterface %(interface)s for "
"VLAN %(vlan_id)s on interface "
"%(physical_interface)s"),
locals())
if utils.execute(['ip', 'link', 'add', 'link',
physical_interface,
'name', interface, 'type', 'vlan', 'id',
vlan_id], root_helper=self.root_helper):
return
if utils.execute(['ip', 'link', 'set',
interface, 'up'], root_helper=self.root_helper):
return
LOG.debug(_("Done creating subinterface %s"), interface)
return interface
def update_interface_ip_details(self, destination, source, ips,
gateway):
if ips or gateway:
dst_device = self.ip.device(destination)
src_device = self.ip.device(source)
# Append IP's to bridge if necessary
if ips:
for ip in ips:
dst_device.addr.add(ip_version=ip['ip_version'],
cidr=ip['cidr'],
broadcast=ip['broadcast'])
if gateway:
# Ensure that the gateway can be updated by changing the metric
metric = 100
if 'metric' in gateway:
metric = gateway['metric'] - 1
dst_device.route.add_gateway(gateway=gateway['gateway'],
metric=metric)
src_device.route.delete_gateway(gateway=gateway['gateway'])
# Remove IP's from interface
if ips:
for ip in ips:
src_device.addr.delete(ip_version=ip['ip_version'],
cidr=ip['cidr'])
def ensure_bridge(self, bridge_name, interface=None, ips=None,
gateway=None):
"""
Create a bridge unless it already exists.
"""
if not self.device_exists(bridge_name):
LOG.debug(_("Starting bridge %(bridge_name)s for subinterface "
"%(interface)s"), locals())
if utils.execute(['brctl', 'addbr', bridge_name],
root_helper=self.root_helper):
return
if utils.execute(['brctl', 'setfd', bridge_name,
str(0)], root_helper=self.root_helper):
return
if utils.execute(['brctl', 'stp', bridge_name,
'off'], root_helper=self.root_helper):
return
if utils.execute(['ip', 'link', 'set', bridge_name,
'up'], root_helper=self.root_helper):
return
LOG.debug(_("Done starting bridge %(bridge_name)s for "
"subinterface %(interface)s"),
locals())
if not interface:
return
# Update IP info if necessary
self.update_interface_ip_details(bridge_name, interface, ips, gateway)
# Check if the interface is part of the bridge
if not self.interface_exists_on_bridge(bridge_name, interface):
try:
utils.execute(['brctl', 'addif', bridge_name, interface],
root_helper=self.root_helper)
except Exception as e:
LOG.error(_("Unable to add %(interface)s to %(bridge_name)s! "
"Exception: %(e)s"), locals())
return
def ensure_physical_in_bridge(self, network_id,
physical_network,
vlan_id):
physical_interface = self.interface_mappings.get(physical_network)
if not physical_interface:
LOG.error(_("No mapping for physical network %s"),
physical_network)
return False
if int(vlan_id) == lconst.FLAT_VLAN_ID:
self.ensure_flat_bridge(network_id, physical_interface)
else:
self.ensure_vlan_bridge(network_id, physical_interface,
vlan_id)
return True
def add_tap_interface(self, network_id, physical_network, vlan_id,
tap_device_name):
"""
If a VIF has been plugged into a network, this function will
add the corresponding tap device to the relevant bridge
"""
if not self.device_exists(tap_device_name):
LOG.debug(_("Tap device: %s does not exist on "
"this host, skipped"), tap_device_name)
return False
bridge_name = self.get_bridge_name(network_id)
if int(vlan_id) == lconst.LOCAL_VLAN_ID:
self.ensure_local_bridge(network_id)
else:
result = self.ensure_physical_in_bridge(network_id,
physical_network,
vlan_id)
if not result:
return False
# Check if device needs to be added to bridge
tap_device_in_bridge = self.get_bridge_for_tap_device(tap_device_name)
if not tap_device_in_bridge:
msg = _("Adding device %(tap_device_name)s to bridge "
"%(bridge_name)s") % locals()
LOG.debug(msg)
if utils.execute(['brctl', 'addif', bridge_name, tap_device_name],
root_helper=self.root_helper):
return False
else:
msg = _("%(tap_device_name)s already exists on bridge "
"%(bridge_name)s") % locals()
LOG.debug(msg)
return True
def add_interface(self, network_id, physical_network, vlan_id,
port_id):
tap_device_name = self.get_tap_device_name(port_id)
return self.add_tap_interface(network_id,
physical_network, vlan_id,
tap_device_name)
def delete_vlan_bridge(self, bridge_name):
if self.device_exists(bridge_name):
interfaces_on_bridge = self.get_interfaces_on_bridge(bridge_name)
for interface in interfaces_on_bridge:
self.remove_interface(bridge_name, interface)
for physical_interface in self.interface_mappings.itervalues():
if physical_interface == interface:
# This is a flat network => return IP's from bridge to
# interface
ips, gateway = self.get_interface_details(bridge_name)
self.update_interface_ip_details(interface,
bridge_name,
ips, gateway)
else:
if interface.startswith(physical_interface):
self.delete_vlan(interface)
LOG.debug(_("Deleting bridge %s"), bridge_name)
if utils.execute(['ip', 'link', 'set', bridge_name, 'down'],
root_helper=self.root_helper):
return
if utils.execute(['brctl', 'delbr', bridge_name],
root_helper=self.root_helper):
return
LOG.debug(_("Done deleting bridge %s"), bridge_name)
else:
LOG.error(_("Cannot delete bridge %s, does not exist"),
bridge_name)
def remove_interface(self, bridge_name, interface_name):
if self.device_exists(bridge_name):
if not self.is_device_on_bridge(interface_name):
return True
LOG.debug(_("Removing device %(interface_name)s from bridge "
"%(bridge_name)s"), locals())
if utils.execute(['brctl', 'delif', bridge_name, interface_name],
root_helper=self.root_helper):
return False
LOG.debug(_("Done removing device %(interface_name)s from bridge "
"%(bridge_name)s"), locals())
return True
else:
LOG.debug(_("Cannot remove device %(interface_name)s bridge "
"%(bridge_name)s does not exist"), locals())
return False
def delete_vlan(self, interface):
if self.device_exists(interface):
LOG.debug(_("Deleting subinterface %s for vlan"), interface)
if utils.execute(['ip', 'link', 'set', interface, 'down'],
root_helper=self.root_helper):
return
if utils.execute(['ip', 'link', 'delete', interface],
root_helper=self.root_helper):
return
LOG.debug(_("Done deleting subinterface %s"), interface)
def update_devices(self, registered_devices):
devices = self.udev_get_tap_devices()
if devices == registered_devices:
return
added = devices - registered_devices
removed = registered_devices - devices
return {'current': devices,
'added': added,
'removed': removed}
def udev_get_tap_devices(self):
devices = set()
for device in self.udev.list_devices(subsystem='net'):
name = self.udev_get_name(device)
if self.is_tap_device(name):
devices.add(name)
return devices
def is_tap_device(self, name):
return name.startswith(TAP_INTERFACE_PREFIX)
def udev_get_name(self, device):
return device.sys_name
class LinuxBridgeRpcCallbacks(sg_rpc.SecurityGroupAgentRpcCallbackMixin):
# Set RPC API version to 1.0 by default.
# history
# 1.1 Support Security Group RPC
RPC_API_VERSION = '1.1'
def __init__(self, context, agent):
self.context = context
self.agent = agent
self.sg_agent = agent
def network_delete(self, context, **kwargs):
LOG.debug(_("network_delete received"))
network_id = kwargs.get('network_id')
bridge_name = self.agent.br_mgr.get_bridge_name(network_id)
LOG.debug(_("Delete %s"), bridge_name)
self.agent.br_mgr.delete_vlan_bridge(bridge_name)
def port_update(self, context, **kwargs):
LOG.debug(_("port_update received"))
# Check port exists on node
port = kwargs.get('port')
tap_device_name = self.agent.br_mgr.get_tap_device_name(port['id'])
devices = self.agent.br_mgr.udev_get_tap_devices()
if tap_device_name not in devices:
return
if 'security_groups' in port:
self.sg_agent.refresh_firewall()
if port['admin_state_up']:
vlan_id = kwargs.get('vlan_id')
physical_network = kwargs.get('physical_network')
# create the networking for the port
self.agent.br_mgr.add_interface(port['network_id'],
physical_network,
vlan_id,
port['id'])
# update plugin about port status
self.agent.plugin_rpc.update_device_up(self.context,
tap_device_name,
self.agent.agent_id)
else:
bridge_name = self.agent.br_mgr.get_bridge_name(
port['network_id'])
self.agent.br_mgr.remove_interface(bridge_name, tap_device_name)
# update plugin about port status
self.agent.plugin_rpc.update_device_down(self.context,
tap_device_name,
self.agent.agent_id)
def create_rpc_dispatcher(self):
'''Get the rpc dispatcher for this manager.
If a manager would like to set an rpc API version, or support more than
one class as the target of rpc messages, override this method.
'''
return dispatcher.RpcDispatcher([self])
class LinuxBridgePluginApi(agent_rpc.PluginApi,
sg_rpc.SecurityGroupServerRpcApiMixin):
pass
class LinuxBridgeQuantumAgentRPC(sg_rpc.SecurityGroupAgentRpcMixin):
def __init__(self, interface_mappings, polling_interval,
root_helper):
self.polling_interval = polling_interval
self.root_helper = root_helper
self.setup_linux_bridge(interface_mappings)
self.setup_rpc(interface_mappings.values())
self.init_firewall()
def setup_rpc(self, physical_interfaces):
if physical_interfaces:
mac = utils.get_interface_mac(physical_interfaces[0])
else:
devices = ip_lib.IPWrapper(self.root_helper).get_devices(True)
if devices:
mac = utils.get_interface_mac(devices[0].name)
else:
LOG.error(_("Unable to obtain MAC address for unique ID. "
"Agent terminated!"))
exit(1)
self.agent_id = '%s%s' % ('lb', (mac.replace(":", "")))
LOG.info(_("RPC agent_id: %s"), self.agent_id)
self.topic = topics.AGENT
self.plugin_rpc = LinuxBridgePluginApi(topics.PLUGIN)
# RPC network init
self.context = context.get_admin_context_without_session()
# Handle updates from service
self.callbacks = LinuxBridgeRpcCallbacks(self.context,
self)
self.dispatcher = self.callbacks.create_rpc_dispatcher()
# Define the listening consumers for the agent
consumers = [[topics.PORT, topics.UPDATE],
[topics.NETWORK, topics.DELETE],
[topics.SECURITY_GROUP, topics.UPDATE]]
self.connection = agent_rpc.create_consumers(self.dispatcher,
self.topic,
consumers)
def setup_linux_bridge(self, interface_mappings):
self.br_mgr = LinuxBridgeManager(interface_mappings, self.root_helper)
def remove_port_binding(self, network_id, interface_id):
bridge_name = self.br_mgr.get_bridge_name(network_id)
tap_device_name = self.br_mgr.get_tap_device_name(interface_id)
return self.br_mgr.remove_interface(bridge_name, tap_device_name)
def process_network_devices(self, device_info):
resync_a = False
resync_b = False
if 'added' in device_info:
resync_a = self.treat_devices_added(device_info['added'])
if 'removed' in device_info:
resync_b = self.treat_devices_removed(device_info['removed'])
# If one of the above operations fails => resync with plugin
return (resync_a | resync_b)
def treat_devices_added(self, devices):
resync = False
self.prepare_devices_filter(devices)
for device in devices:
LOG.debug(_("Port %s added"), device)
try:
details = self.plugin_rpc.get_device_details(self.context,
device,
self.agent_id)
except Exception as e:
LOG.debug(_("Unable to get port details for "
"%(device)s: %(e)s"), locals())
resync = True
continue
if 'port_id' in details:
LOG.info(_("Port %(device)s updated. Details: %(details)s"),
locals())
if details['admin_state_up']:
# create the networking for the port
self.br_mgr.add_interface(details['network_id'],
details['physical_network'],
details['vlan_id'],
details['port_id'])
else:
self.remove_port_binding(details['network_id'],
details['port_id'])
else:
LOG.info(_("Device %s not defined on plugin"), device)
return resync
def treat_devices_removed(self, devices):
resync = False
self.remove_devices_filter(devices)
for device in devices:
LOG.info(_("Attachment %s removed"), device)
try:
details = self.plugin_rpc.update_device_down(self.context,
device,
self.agent_id)
except Exception as e:
LOG.debug(_("port_removed failed for %(device)s: %(e)s"),
locals())
resync = True
if details['exists']:
LOG.info(_("Port %s updated."), device)
# Nothing to do regarding local networking
else:
LOG.debug(_("Device %s not defined on plugin"), device)
return resync
def daemon_loop(self):
sync = True
devices = set()
LOG.info(_("LinuxBridge Agent RPC Daemon Started!"))
while True:
start = time.time()
if sync:
LOG.info(_("Agent out of sync with plugin!"))
devices.clear()
sync = False
device_info = self.br_mgr.update_devices(devices)
# notify plugin about device deltas
if device_info:
LOG.debug(_("Agent loop has new devices!"))
# If treat devices fails - indicates must resync with plugin
sync = self.process_network_devices(device_info)
devices = device_info['current']
# sleep till end of polling interval
elapsed = (time.time() - start)
if (elapsed < self.polling_interval):
time.sleep(self.polling_interval - elapsed)
else:
LOG.debug(_("Loop iteration exceeded interval "
"(%(polling_interval)s vs. %(elapsed)s)!"),
{'polling_interval': self.polling_interval,
'elapsed': elapsed})
def main():
eventlet.monkey_patch()
cfg.CONF(project='quantum')
logging_config.setup_logging(cfg.CONF)
try:
interface_mappings = q_utils.parse_mappings(
cfg.CONF.LINUX_BRIDGE.physical_interface_mappings)
except ValueError as e:
LOG.error(_("Parsing physical_interface_mappings failed: %s."
" Agent terminated!"), e)
sys.exit(1)
LOG.info(_("Interface mappings: %s"), interface_mappings)
polling_interval = cfg.CONF.AGENT.polling_interval
root_helper = cfg.CONF.AGENT.root_helper
plugin = LinuxBridgeQuantumAgentRPC(interface_mappings,
polling_interval,
root_helper)
LOG.info(_("Agent initialized successfully, now running... "))
plugin.daemon_loop()
sys.exit(0)
if __name__ == "__main__":
main()