os-ken/ryu/topology/switches.py
Yoshihiro Kaneko f295487bef topology/switches: fix pep8
Signed-off-by: Yoshihiro Kaneko <ykaneko0929@gmail.com>
Signed-off-by: FUJITA Tomonori <fujita.tomonori@lab.ntt.co.jp>
2014-05-14 13:19:16 +09:00

863 lines
29 KiB
Python

# Copyright (C) 2013 Nippon Telegraph and Telephone 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.
import logging
import struct
import time
import json
from ryu import cfg
from ryu.topology import event
from ryu.base import app_manager
from ryu.controller import ofp_event
from ryu.controller.handler import set_ev_cls
from ryu.controller.handler import MAIN_DISPATCHER, DEAD_DISPATCHER
from ryu.exception import RyuException
from ryu.lib import addrconv, hub
from ryu.lib.mac import DONTCARE_STR
from ryu.lib.dpid import dpid_to_str, str_to_dpid
from ryu.lib.port_no import port_no_to_str
from ryu.lib.packet import packet, ethernet, lldp
from ryu.ofproto.ether import ETH_TYPE_LLDP
from ryu.ofproto import ofproto_v1_0
from ryu.ofproto import nx_match
from ryu.ofproto import ofproto_v1_2
from ryu.ofproto import ofproto_v1_3
from ryu.ofproto import ofproto_v1_4
LOG = logging.getLogger(__name__)
CONF = cfg.CONF
CONF.register_cli_opts([
cfg.BoolOpt('observe-links', default=False,
help='observe link discovery events.'),
cfg.BoolOpt('install-lldp-flow', default=True,
help='link discovery: explicitly install flow entry '
'to send lldp packet to controller'),
cfg.BoolOpt('explicit-drop', default=True,
help='link discovery: explicitly drop lldp packet in')
])
class Port(object):
# This is data class passed by EventPortXXX
def __init__(self, dpid, ofproto, ofpport):
super(Port, self).__init__()
self.dpid = dpid
self._ofproto = ofproto
self._config = ofpport.config
self._state = ofpport.state
self.port_no = ofpport.port_no
self.hw_addr = ofpport.hw_addr
self.name = ofpport.name
def is_reserved(self):
return self.port_no > self._ofproto.OFPP_MAX
def is_down(self):
return (self._state & self._ofproto.OFPPS_LINK_DOWN) > 0 \
or (self._config & self._ofproto.OFPPC_PORT_DOWN) > 0
def is_live(self):
# NOTE: OF1.2 has OFPPS_LIVE state
# return (self._state & self._ofproto.OFPPS_LIVE) > 0
return not self.is_down()
def to_dict(self):
return {'dpid': dpid_to_str(self.dpid),
'port_no': port_no_to_str(self.port_no),
'hw_addr': self.hw_addr,
'name': self.name.rstrip('\0')}
# for Switch.del_port()
def __eq__(self, other):
return self.dpid == other.dpid and self.port_no == other.port_no
def __ne__(self, other):
return not self.__eq__(other)
def __hash__(self):
return hash((self.dpid, self.port_no))
def __str__(self):
LIVE_MSG = {False: 'DOWN', True: 'LIVE'}
return 'Port<dpid=%s, port_no=%s, %s>' % \
(self.dpid, self.port_no, LIVE_MSG[self.is_live()])
class Switch(object):
# This is data class passed by EventSwitchXXX
def __init__(self, dp):
super(Switch, self).__init__()
self.dp = dp
self.ports = []
def add_port(self, ofpport):
port = Port(self.dp.id, self.dp.ofproto, ofpport)
if not port.is_reserved():
self.ports.append(port)
def del_port(self, ofpport):
self.ports.remove(Port(ofpport))
def to_dict(self):
d = {'dpid': dpid_to_str(self.dp.id),
'ports': [port.to_dict() for port in self.ports]}
return d
def __str__(self):
msg = 'Switch<dpid=%s, ' % self.dp.id
for port in self.ports:
msg += str(port) + ' '
msg += '>'
return msg
class Link(object):
# This is data class passed by EventLinkXXX
def __init__(self, src, dst):
super(Link, self).__init__()
self.src = src
self.dst = dst
def to_dict(self):
d = {'src': self.src.to_dict(),
'dst': self.dst.to_dict()}
return d
# this type is used for key value of LinkState
def __eq__(self, other):
return self.src == other.src and self.dst == other.dst
def __ne__(self, other):
return not self.__eq__(other)
def __hash__(self):
return hash((self.src, self.dst))
def __str__(self):
return 'Link: %s to %s' % (self.src, self.dst)
class PortState(dict):
# dict: int port_no -> OFPPort port
# OFPPort is defined in ryu.ofproto.ofproto_v1_X_parser
def __init__(self):
super(PortState, self).__init__()
def add(self, port_no, port):
self[port_no] = port
def remove(self, port_no):
del self[port_no]
def modify(self, port_no, port):
self[port_no] = port
class PortData(object):
def __init__(self, is_down, lldp_data):
super(PortData, self).__init__()
self.is_down = is_down
self.lldp_data = lldp_data
self.timestamp = None
self.sent = 0
def lldp_sent(self):
self.timestamp = time.time()
self.sent += 1
def lldp_received(self):
self.sent = 0
def lldp_dropped(self):
return self.sent
def clear_timestamp(self):
self.timestamp = None
def set_down(self, is_down):
self.is_down = is_down
def __str__(self):
return 'PortData<live=%s, timestamp=%s, sent=%d>' \
% (not self.is_down, self.timestamp, self.sent)
class PortDataState(dict):
# dict: Port class -> PortData class
# slimed down version of OrderedDict as python 2.6 doesn't support it.
_PREV = 0
_NEXT = 1
_KEY = 2
def __init__(self):
super(PortDataState, self).__init__()
self._root = root = [] # sentinel node
root[:] = [root, root, None] # [_PREV, _NEXT, _KEY]
# doubly linked list
self._map = {}
def _remove_key(self, key):
link_prev, link_next, key = self._map.pop(key)
link_prev[self._NEXT] = link_next
link_next[self._PREV] = link_prev
def _append_key(self, key):
root = self._root
last = root[self._PREV]
last[self._NEXT] = root[self._PREV] = self._map[key] = [last, root,
key]
def _prepend_key(self, key):
root = self._root
first = root[self._NEXT]
first[self._PREV] = root[self._NEXT] = self._map[key] = [root, first,
key]
def _move_last_key(self, key):
self._remove_key(key)
self._append_key(key)
def _move_front_key(self, key):
self._remove_key(key)
self._prepend_key(key)
def add_port(self, port, lldp_data):
if port not in self:
self._prepend_key(port)
self[port] = PortData(port.is_down(), lldp_data)
else:
self[port].is_down = port.is_down()
def lldp_sent(self, port):
port_data = self[port]
port_data.lldp_sent()
self._move_last_key(port)
return port_data
def lldp_received(self, port):
self[port].lldp_received()
def move_front(self, port):
port_data = self.get(port, None)
if port_data is not None:
port_data.clear_timestamp()
self._move_front_key(port)
def set_down(self, port):
is_down = port.is_down()
port_data = self[port]
port_data.set_down(is_down)
port_data.clear_timestamp()
if not is_down:
self._move_front_key(port)
return is_down
def get_port(self, port):
return self[port]
def del_port(self, port):
del self[port]
self._remove_key(port)
def __iter__(self):
root = self._root
curr = root[self._NEXT]
while curr is not root:
yield curr[self._KEY]
curr = curr[self._NEXT]
def clear(self):
for node in self._map.itervalues():
del node[:]
root = self._root
root[:] = [root, root, None]
self._map.clear()
dict.clear(self)
def items(self):
'od.items() -> list of (key, value) pairs in od'
return [(key, self[key]) for key in self]
def iteritems(self):
'od.iteritems -> an iterator over the (key, value) pairs in od'
for k in self:
yield (k, self[k])
class LinkState(dict):
# dict: Link class -> timestamp
def __init__(self):
super(LinkState, self).__init__()
self._map = {}
def get_peer(self, src):
return self._map.get(src, None)
def update_link(self, src, dst):
link = Link(src, dst)
self[link] = time.time()
self._map[src] = dst
# return if the reverse link is also up or not
rev_link = Link(dst, src)
return rev_link in self
def link_down(self, link):
del self[link]
del self._map[link.src]
def rev_link_set_timestamp(self, rev_link, timestamp):
# rev_link may or may not in LinkSet
if rev_link in self:
self[rev_link] = timestamp
def port_deleted(self, src):
dst = self.get_peer(src)
if dst is None:
raise KeyError()
link = Link(src, dst)
rev_link = Link(dst, src)
del self[link]
del self._map[src]
# reverse link might not exist
self.pop(rev_link, None)
rev_link_dst = self._map.pop(dst, None)
return dst, rev_link_dst
class LLDPPacket(object):
# make a LLDP packet for link discovery.
CHASSIS_ID_PREFIX = 'dpid:'
CHASSIS_ID_PREFIX_LEN = len(CHASSIS_ID_PREFIX)
CHASSIS_ID_FMT = CHASSIS_ID_PREFIX + '%s'
PORT_ID_STR = '!I' # uint32_t
PORT_ID_SIZE = 4
class LLDPUnknownFormat(RyuException):
message = '%(msg)s'
@staticmethod
def lldp_packet(dpid, port_no, dl_addr, ttl):
pkt = packet.Packet()
dst = lldp.LLDP_MAC_NEAREST_BRIDGE
src = dl_addr
ethertype = ETH_TYPE_LLDP
eth_pkt = ethernet.ethernet(dst, src, ethertype)
pkt.add_protocol(eth_pkt)
tlv_chassis_id = lldp.ChassisID(
subtype=lldp.ChassisID.SUB_LOCALLY_ASSIGNED,
chassis_id=LLDPPacket.CHASSIS_ID_FMT %
dpid_to_str(dpid))
tlv_port_id = lldp.PortID(subtype=lldp.PortID.SUB_PORT_COMPONENT,
port_id=struct.pack(
LLDPPacket.PORT_ID_STR,
port_no))
tlv_ttl = lldp.TTL(ttl=ttl)
tlv_end = lldp.End()
tlvs = (tlv_chassis_id, tlv_port_id, tlv_ttl, tlv_end)
lldp_pkt = lldp.lldp(tlvs)
pkt.add_protocol(lldp_pkt)
pkt.serialize()
return pkt.data
@staticmethod
def lldp_parse(data):
pkt = packet.Packet(data)
i = iter(pkt)
eth_pkt = i.next()
assert type(eth_pkt) == ethernet.ethernet
lldp_pkt = i.next()
if type(lldp_pkt) != lldp.lldp:
raise LLDPPacket.LLDPUnknownFormat()
tlv_chassis_id = lldp_pkt.tlvs[0]
if tlv_chassis_id.subtype != lldp.ChassisID.SUB_LOCALLY_ASSIGNED:
raise LLDPPacket.LLDPUnknownFormat(
msg='unknown chassis id subtype %d' % tlv_chassis_id.subtype)
chassis_id = tlv_chassis_id.chassis_id
if not chassis_id.startswith(LLDPPacket.CHASSIS_ID_PREFIX):
raise LLDPPacket.LLDPUnknownFormat(
msg='unknown chassis id format %s' % chassis_id)
src_dpid = str_to_dpid(chassis_id[LLDPPacket.CHASSIS_ID_PREFIX_LEN:])
tlv_port_id = lldp_pkt.tlvs[1]
if tlv_port_id.subtype != lldp.PortID.SUB_PORT_COMPONENT:
raise LLDPPacket.LLDPUnknownFormat(
msg='unknown port id subtype %d' % tlv_port_id.subtype)
port_id = tlv_port_id.port_id
if len(port_id) != LLDPPacket.PORT_ID_SIZE:
raise LLDPPacket.LLDPUnknownFormat(
msg='unknown port id %d' % port_id)
(src_port_no, ) = struct.unpack(LLDPPacket.PORT_ID_STR, port_id)
return src_dpid, src_port_no
class Switches(app_manager.RyuApp):
OFP_VERSIONS = [ofproto_v1_0.OFP_VERSION, ofproto_v1_2.OFP_VERSION,
ofproto_v1_3.OFP_VERSION, ofproto_v1_4.OFP_VERSION]
_EVENTS = [event.EventSwitchEnter, event.EventSwitchLeave,
event.EventPortAdd, event.EventPortDelete,
event.EventPortModify,
event.EventLinkAdd, event.EventLinkDelete]
DEFAULT_TTL = 120 # unused. ignored.
LLDP_PACKET_LEN = len(LLDPPacket.lldp_packet(0, 0, DONTCARE_STR, 0))
LLDP_SEND_GUARD = .05
LLDP_SEND_PERIOD_PER_PORT = .9
TIMEOUT_CHECK_PERIOD = 5.
LINK_TIMEOUT = TIMEOUT_CHECK_PERIOD * 2
LINK_LLDP_DROP = 5
def __init__(self, *args, **kwargs):
super(Switches, self).__init__(*args, **kwargs)
self.name = 'switches'
self.dps = {} # datapath_id => Datapath class
self.port_state = {} # datapath_id => ports
self.ports = PortDataState() # Port class -> PortData class
self.links = LinkState() # Link class -> timestamp
self.is_active = True
self.link_discovery = self.CONF.observe_links
if self.link_discovery:
self.install_flow = self.CONF.install_lldp_flow
self.explicit_drop = self.CONF.explicit_drop
self.lldp_event = hub.Event()
self.link_event = hub.Event()
self.threads.append(hub.spawn(self.lldp_loop))
self.threads.append(hub.spawn(self.link_loop))
def close(self):
self.is_active = False
if self.link_discovery:
self.lldp_event.set()
self.link_event.set()
hub.joinall(self.threads)
def _register(self, dp):
assert dp.id is not None
self.dps[dp.id] = dp
if dp.id not in self.port_state:
self.port_state[dp.id] = PortState()
for port in dp.ports.values():
self.port_state[dp.id].add(port.port_no, port)
def _unregister(self, dp):
if dp.id in self.dps:
del self.dps[dp.id]
del self.port_state[dp.id]
def _get_switch(self, dpid):
if dpid in self.dps:
switch = Switch(self.dps[dpid])
for ofpport in self.port_state[dpid].itervalues():
switch.add_port(ofpport)
return switch
def _get_port(self, dpid, port_no):
switch = self._get_switch(dpid)
if switch:
for p in switch.ports:
if p.port_no == port_no:
return p
def _port_added(self, port):
lldp_data = LLDPPacket.lldp_packet(
port.dpid, port.port_no, port.hw_addr, self.DEFAULT_TTL)
self.ports.add_port(port, lldp_data)
# LOG.debug('_port_added dpid=%s, port_no=%s, live=%s',
# port.dpid, port.port_no, port.is_live())
def _link_down(self, port):
try:
dst, rev_link_dst = self.links.port_deleted(port)
except KeyError:
# LOG.debug('key error. src=%s, dst=%s',
# port, self.links.get_peer(port))
return
link = Link(port, dst)
self.send_event_to_observers(event.EventLinkDelete(link))
if rev_link_dst:
rev_link = Link(dst, rev_link_dst)
self.send_event_to_observers(event.EventLinkDelete(rev_link))
self.ports.move_front(dst)
@set_ev_cls(ofp_event.EventOFPStateChange,
[MAIN_DISPATCHER, DEAD_DISPATCHER])
def state_change_handler(self, ev):
dp = ev.datapath
assert dp is not None
LOG.debug(dp)
if ev.state == MAIN_DISPATCHER:
dp_multiple_conns = False
if dp.id in self.dps:
LOG.warning('multiple connections from %s', dpid_to_str(dp.id))
dp_multiple_conns = True
self._register(dp)
switch = self._get_switch(dp.id)
LOG.debug('register %s', switch)
# Do not send event while dp has multiple connections.
if not dp_multiple_conns:
self.send_event_to_observers(event.EventSwitchEnter(switch))
if not self.link_discovery:
return
if self.install_flow:
ofproto = dp.ofproto
ofproto_parser = dp.ofproto_parser
# TODO:XXX need other versions
if ofproto.OFP_VERSION == ofproto_v1_0.OFP_VERSION:
rule = nx_match.ClsRule()
rule.set_dl_dst(addrconv.mac.text_to_bin(
lldp.LLDP_MAC_NEAREST_BRIDGE))
rule.set_dl_type(ETH_TYPE_LLDP)
actions = [ofproto_parser.OFPActionOutput(
ofproto.OFPP_CONTROLLER, self.LLDP_PACKET_LEN)]
dp.send_flow_mod(
rule=rule, cookie=0, command=ofproto.OFPFC_ADD,
idle_timeout=0, hard_timeout=0, actions=actions,
priority=0xFFFF)
elif ofproto.OFP_VERSION >= ofproto_v1_2.OFP_VERSION:
match = ofproto_parser.OFPMatch(
eth_type=ETH_TYPE_LLDP,
eth_dst=lldp.LLDP_MAC_NEAREST_BRIDGE)
# OFPCML_NO_BUFFER is set so that the LLDP is not
# buffered on switch
parser = ofproto_parser
actions = [parser.OFPActionOutput(ofproto.OFPP_CONTROLLER,
ofproto.OFPCML_NO_BUFFER
)]
inst = [parser.OFPInstructionActions(
ofproto.OFPIT_APPLY_ACTIONS, actions)]
mod = parser.OFPFlowMod(datapath=dp, match=match,
idle_timeout=0, hard_timeout=0,
instructions=inst,
priority=0xFFFF)
dp.send_msg(mod)
else:
LOG.error('cannot install flow. unsupported version. %x',
dp.ofproto.OFP_VERSION)
# Do not add ports while dp has multiple connections to controller.
if not dp_multiple_conns:
for port in switch.ports:
if not port.is_reserved():
self._port_added(port)
self.lldp_event.set()
elif ev.state == DEAD_DISPATCHER:
# dp.id is None when datapath dies before handshake
if dp.id is None:
return
switch = self._get_switch(dp.id)
self._unregister(dp)
LOG.debug('unregister %s', switch)
self.send_event_to_observers(event.EventSwitchLeave(switch))
if not self.link_discovery:
return
for port in switch.ports:
if not port.is_reserved():
self.ports.del_port(port)
self._link_down(port)
self.lldp_event.set()
@set_ev_cls(ofp_event.EventOFPPortStatus, MAIN_DISPATCHER)
def port_status_handler(self, ev):
msg = ev.msg
reason = msg.reason
dp = msg.datapath
ofpport = msg.desc
if reason == dp.ofproto.OFPPR_ADD:
# LOG.debug('A port was added.' +
# '(datapath id = %s, port number = %s)',
# dp.id, ofpport.port_no)
self.port_state[dp.id].add(ofpport.port_no, ofpport)
self.send_event_to_observers(
event.EventPortAdd(Port(dp.id, dp.ofproto, ofpport)))
if not self.link_discovery:
return
port = self._get_port(dp.id, ofpport.port_no)
if port and not port.is_reserved():
self._port_added(port)
self.lldp_event.set()
elif reason == dp.ofproto.OFPPR_DELETE:
# LOG.debug('A port was deleted.' +
# '(datapath id = %s, port number = %s)',
# dp.id, ofpport.port_no)
self.port_state[dp.id].remove(ofpport.port_no)
self.send_event_to_observers(
event.EventPortDelete(Port(dp.id, dp.ofproto, ofpport)))
if not self.link_discovery:
return
port = self._get_port(dp.id, ofpport.port_no)
if port and not port.is_reserved():
self.ports.del_port(port)
self._link_down(port)
self.lldp_event.set()
else:
assert reason == dp.ofproto.OFPPR_MODIFY
# LOG.debug('A port was modified.' +
# '(datapath id = %s, port number = %s)',
# dp.id, ofpport.port_no)
self.port_state[dp.id].modify(ofpport.port_no, ofpport)
self.send_event_to_observers(
event.EventPortModify(Port(dp.id, dp.ofproto, ofpport)))
if not self.link_discovery:
return
port = self._get_port(dp.id, ofpport.port_no)
if port and not port.is_reserved():
if self.ports.set_down(port):
self._link_down(port)
self.lldp_event.set()
@staticmethod
def _drop_packet(msg):
buffer_id = msg.buffer_id
if buffer_id == msg.datapath.ofproto.OFP_NO_BUFFER:
return
dp = msg.datapath
# TODO:XXX
if dp.ofproto.OFP_VERSION == ofproto_v1_0.OFP_VERSION:
dp.send_packet_out(buffer_id, msg.in_port, [])
else:
LOG.error('cannot drop_packet. unsupported version. %x',
dp.ofproto.OFP_VERSION)
@set_ev_cls(ofp_event.EventOFPPacketIn, MAIN_DISPATCHER)
def packet_in_handler(self, ev):
if not self.link_discovery:
return
msg = ev.msg
try:
src_dpid, src_port_no = LLDPPacket.lldp_parse(msg.data)
except LLDPPacket.LLDPUnknownFormat as e:
# This handler can receive all the packtes which can be
# not-LLDP packet. Ignore it silently
return
dst_dpid = msg.datapath.id
if msg.datapath.ofproto.OFP_VERSION == ofproto_v1_0.OFP_VERSION:
dst_port_no = msg.in_port
elif msg.datapath.ofproto.OFP_VERSION >= ofproto_v1_2.OFP_VERSION:
dst_port_no = msg.match['in_port']
else:
LOG.error('cannot accept LLDP. unsupported version. %x',
msg.datapath.ofproto.OFP_VERSION)
src = self._get_port(src_dpid, src_port_no)
if not src or src.dpid == dst_dpid:
return
try:
self.ports.lldp_received(src)
except KeyError:
# There are races between EventOFPPacketIn and
# EventDPPortAdd. So packet-in event can happend before
# port add event. In that case key error can happend.
# LOG.debug('lldp_received: KeyError %s', e)
pass
dst = self._get_port(dst_dpid, dst_port_no)
if not dst:
return
old_peer = self.links.get_peer(src)
# LOG.debug("Packet-In")
# LOG.debug(" src=%s", src)
# LOG.debug(" dst=%s", dst)
# LOG.debug(" old_peer=%s", old_peer)
if old_peer and old_peer != dst:
old_link = Link(src, old_peer)
self.send_event_to_observers(event.EventLinkDelete(old_link))
link = Link(src, dst)
if link not in self.links:
self.send_event_to_observers(event.EventLinkAdd(link))
if not self.links.update_link(src, dst):
# reverse link is not detected yet.
# So schedule the check early because it's very likely it's up
self.ports.move_front(dst)
self.lldp_event.set()
if self.explicit_drop:
self._drop_packet(msg)
def send_lldp_packet(self, port):
try:
port_data = self.ports.lldp_sent(port)
except KeyError as e:
# ports can be modified during our sleep in self.lldp_loop()
# LOG.debug('send_lldp: KeyError %s', e)
return
if port_data.is_down:
return
dp = self.dps.get(port.dpid, None)
if dp is None:
# datapath was already deleted
return
# LOG.debug('lldp sent dpid=%s, port_no=%d', dp.id, port.port_no)
# TODO:XXX
if dp.ofproto.OFP_VERSION == ofproto_v1_0.OFP_VERSION:
actions = [dp.ofproto_parser.OFPActionOutput(port.port_no)]
dp.send_packet_out(actions=actions, data=port_data.lldp_data)
elif dp.ofproto.OFP_VERSION >= ofproto_v1_2.OFP_VERSION:
actions = [dp.ofproto_parser.OFPActionOutput(port.port_no)]
out = dp.ofproto_parser.OFPPacketOut(
datapath=dp, in_port=dp.ofproto.OFPP_CONTROLLER,
buffer_id=dp.ofproto.OFP_NO_BUFFER, actions=actions,
data=port_data.lldp_data)
dp.send_msg(out)
else:
LOG.error('cannot send lldp packet. unsupported version. %x',
dp.ofproto.OFP_VERSION)
def lldp_loop(self):
while self.is_active:
self.lldp_event.clear()
now = time.time()
timeout = None
ports_now = []
ports = []
for (key, data) in self.ports.items():
if data.timestamp is None:
ports_now.append(key)
continue
expire = data.timestamp + self.LLDP_SEND_PERIOD_PER_PORT
if expire <= now:
ports.append(key)
continue
timeout = expire - now
break
for port in ports_now:
self.send_lldp_packet(port)
for port in ports:
self.send_lldp_packet(port)
hub.sleep(self.LLDP_SEND_GUARD) # don't burst
if timeout is not None and ports:
timeout = 0 # We have already slept
# LOG.debug('lldp sleep %s', timeout)
self.lldp_event.wait(timeout=timeout)
def link_loop(self):
while self.is_active:
self.link_event.clear()
now = time.time()
deleted = []
for (link, timestamp) in self.links.items():
# LOG.debug('%s timestamp %d (now %d)', link, timestamp, now)
if timestamp + self.LINK_TIMEOUT < now:
src = link.src
if src in self.ports:
port_data = self.ports.get_port(src)
# LOG.debug('port_data %s', port_data)
if port_data.lldp_dropped() > self.LINK_LLDP_DROP:
deleted.append(link)
for link in deleted:
self.links.link_down(link)
# LOG.debug('delete %s', link)
self.send_event_to_observers(event.EventLinkDelete(link))
dst = link.dst
rev_link = Link(dst, link.src)
if rev_link not in deleted:
# It is very likely that the reverse link is also
# disconnected. Check it early.
expire = now - self.LINK_TIMEOUT
self.links.rev_link_set_timestamp(rev_link, expire)
if dst in self.ports:
self.ports.move_front(dst)
self.lldp_event.set()
self.link_event.wait(timeout=self.TIMEOUT_CHECK_PERIOD)
@set_ev_cls(event.EventSwitchRequest)
def switch_request_handler(self, req):
# LOG.debug(req)
dpid = req.dpid
switches = []
if dpid is None:
# reply all list
for dp in self.dps.itervalues():
switches.append(self._get_switch(dp.id))
elif dpid in self.dps:
switches.append(self._get_switch(dpid))
rep = event.EventSwitchReply(req.src, switches)
self.reply_to_request(req, rep)
@set_ev_cls(event.EventLinkRequest)
def link_request_handler(self, req):
# LOG.debug(req)
dpid = req.dpid
if dpid is None:
links = self.links
else:
links = [link for link in self.links if link.src.dpid == dpid]
rep = event.EventLinkReply(req.src, dpid, links)
self.reply_to_request(req, rep)