# 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 datetime import logging from os_ken.base import app_manager from os_ken.controller import event from os_ken.controller import handler from os_ken.controller import ofp_event from os_ken.controller.handler import set_ev_cls from os_ken.exception import OSKenException from os_ken.exception import OFPUnknownVersion from os_ken.lib import hub from os_ken.lib import mac from os_ken.lib.dpid import dpid_to_str from os_ken.lib.packet import bpdu from os_ken.lib.packet import ethernet from os_ken.lib.packet import llc from os_ken.lib.packet import packet from os_ken.ofproto import ofproto_v1_0 from os_ken.ofproto import ofproto_v1_2 from os_ken.ofproto import ofproto_v1_3 MAX_PORT_NO = 0xfff # for OpenFlow 1.2/1.3 BPDU_PKT_IN_PRIORITY = 0xffff NO_PKT_IN_PRIORITY = 0xfffe # Result of compared config BPDU priority. SUPERIOR = -1 REPEATED = 0 INFERIOR = 1 # Port role DESIGNATED_PORT = 0 # The port which sends BPDU. ROOT_PORT = 1 # The port which receives BPDU from a root bridge. NON_DESIGNATED_PORT = 2 # The port which blocked. """ How to decide the port roles. Root bridge: a bridge has smallest bridge ID is chosen as a root. it sends original config BPDU. Non Root bridge: forwards config BPDU received from the root bridge. +-----------------------+ | Root bridge | +-----------------------+ (D) (D) | | | | (R) (R) +-----------------+ +-----------------+ | Non Root bridge |(D)---(ND)| Non Root bridge | +-----------------+ +-----------------+ ROOT_PORT(R): the nearest port to a root bridge of the bridge. it is determined by the cost of the path, etc. DESIGNATED_PORT(D): the port of the side near the root bridge of each link. it is determined by the cost of the path, etc. NON_DESIGNATED_PORT(ND): the port other than a ROOT_PORT and DESIGNATED_PORT. """ # Port state # DISABLE: Administratively down or link down by an obstacle. # BLOCK : Not part of spanning tree. # LISTEN : Not learning or relaying frames. # LEARN : Learning but not relaying frames. # FORWARD: Learning and relaying frames. PORT_STATE_DISABLE = 0 PORT_STATE_BLOCK = 1 PORT_STATE_LISTEN = 2 PORT_STATE_LEARN = 3 PORT_STATE_FORWARD = 4 # for OpenFlow 1.0 PORT_CONFIG_V1_0 = {PORT_STATE_DISABLE: (ofproto_v1_0.OFPPC_NO_RECV_STP | ofproto_v1_0.OFPPC_NO_RECV | ofproto_v1_0.OFPPC_NO_FLOOD | ofproto_v1_0.OFPPC_NO_FWD), PORT_STATE_BLOCK: (ofproto_v1_0.OFPPC_NO_RECV | ofproto_v1_0.OFPPC_NO_FLOOD | ofproto_v1_0.OFPPC_NO_FWD), PORT_STATE_LISTEN: (ofproto_v1_0.OFPPC_NO_RECV | ofproto_v1_0.OFPPC_NO_FLOOD), PORT_STATE_LEARN: ofproto_v1_0.OFPPC_NO_FLOOD, PORT_STATE_FORWARD: 0} # for OpenFlow 1.2 PORT_CONFIG_V1_2 = {PORT_STATE_DISABLE: (ofproto_v1_2.OFPPC_NO_RECV | ofproto_v1_2.OFPPC_NO_FWD), PORT_STATE_BLOCK: (ofproto_v1_2.OFPPC_NO_FWD | ofproto_v1_2.OFPPC_NO_PACKET_IN), PORT_STATE_LISTEN: ofproto_v1_2.OFPPC_NO_PACKET_IN, PORT_STATE_LEARN: ofproto_v1_2.OFPPC_NO_PACKET_IN, PORT_STATE_FORWARD: 0} # for OpenFlow 1.3 PORT_CONFIG_V1_3 = {PORT_STATE_DISABLE: (ofproto_v1_3.OFPPC_NO_RECV | ofproto_v1_3.OFPPC_NO_FWD), PORT_STATE_BLOCK: (ofproto_v1_3.OFPPC_NO_FWD | ofproto_v1_3.OFPPC_NO_PACKET_IN), PORT_STATE_LISTEN: ofproto_v1_3.OFPPC_NO_PACKET_IN, PORT_STATE_LEARN: ofproto_v1_3.OFPPC_NO_PACKET_IN, PORT_STATE_FORWARD: 0} """ Port state machine +------------------------<--------------------------+ | |*2 +--> [BLOCK] -----+--> [LISTEN] ----> [LEARN] ------+----> [FORWARD] *3 | | 15sec | 15sec *1 | | |*3 |*3 |*3 +----<---+------<------+----------<----------+ *1 if port role == DESIGNATED_PORT or ROOT_PORT *2 if port role == NON_DESIGNATED_PORT *3 re-calculation of Spanning tree occurred. When bridge has started, each port state is set to [LISTEN] except port configuration is disable. If port configuration is disable or link down occurred, the port state is set to [DISABLE] """ # Throw this event when network topology is changed. # Flush filtering database, when you receive this event. class EventTopologyChange(event.EventBase): def __init__(self, dp): super(EventTopologyChange, self).__init__() self.dp = dp # Throw this event when port status is changed. class EventPortStateChange(event.EventBase): def __init__(self, dp, port): super(EventPortStateChange, self).__init__() self.dp = dp self.port_no = port.ofport.port_no self.port_state = port.state # Event for receive packet in message except BPDU packet. class EventPacketIn(event.EventBase): def __init__(self, msg): super(EventPacketIn, self).__init__() self.msg = msg # For Python3 compatibility # Note: The following is the official workaround for cmp() in Python2. # https://docs.python.org/3.0/whatsnew/3.0.html#ordering-comparisons def cmp(a, b): return (a > b) - (a < b) class Stp(app_manager.OSKenApp): """ STP(spanning tree) library. """ OFP_VERSIONS = [ofproto_v1_0.OFP_VERSION, ofproto_v1_2.OFP_VERSION, ofproto_v1_3.OFP_VERSION] def __init__(self): super(Stp, self).__init__() self.name = 'stplib' self._set_logger() self.config = {} self.bridge_list = {} def close(self): for dpid in self.bridge_list: self._unregister_bridge(dpid) def _set_logger(self): self.logger.propagate = False hdlr = logging.StreamHandler() fmt_str = '[STP][%(levelname)s] dpid=%(dpid)s: %(message)s' hdlr.setFormatter(logging.Formatter(fmt_str)) self.logger.addHandler(hdlr) def set_config(self, config): """ Use this API if you want to set up configuration of each bridge and ports. Set configuration with 'config' parameter as follows. config = {: {'bridge': {'priority': , 'sys_ext_id': , 'max_age': , 'hello_time': , 'fwd_delay': } 'ports': {: {'priority': , 'path_cost': , 'enable': }, : {...},,,}} : {...}, : {...},,,} NOTE: You may omit each field. If omitted, a default value is set up. It becomes effective when a bridge starts. Default values: ------------------------------------------------------ | bridge | priority | bpdu.DEFAULT_BRIDGE_PRIORITY | | | sys_ext_id | 0 | | | max_age | bpdu.DEFAULT_MAX_AGE | | | hello_time | bpdu.DEFAULT_HELLO_TIME | | | fwd_delay | bpdu.DEFAULT_FORWARD_DELAY | |--------|------------|------------------------------| | port | priority | bpdu.DEFAULT_PORT_PRIORITY | | | path_cost | (Set up automatically | | | | according to link speed.) | | | enable | True | ------------------------------------------------------ """ assert isinstance(config, dict) self.config = config @set_ev_cls(ofp_event.EventOFPStateChange, [handler.MAIN_DISPATCHER, handler.DEAD_DISPATCHER]) def dispacher_change(self, ev): assert ev.datapath is not None if ev.state == handler.MAIN_DISPATCHER: self._register_bridge(ev.datapath) elif ev.state == handler.DEAD_DISPATCHER: self._unregister_bridge(ev.datapath.id) def _register_bridge(self, dp): self._unregister_bridge(dp.id) dpid_str = {'dpid': dpid_to_str(dp.id)} self.logger.info('Join as stp bridge.', extra=dpid_str) try: bridge = Bridge(dp, self.logger, self.config.get(dp.id, {}), self.send_event_to_observers) except OFPUnknownVersion as message: self.logger.error(str(message), extra=dpid_str) return self.bridge_list[dp.id] = bridge def _unregister_bridge(self, dp_id): if dp_id in self.bridge_list: self.bridge_list[dp_id].delete() del self.bridge_list[dp_id] self.logger.info('Leave stp bridge.', extra={'dpid': dpid_to_str(dp_id)}) @set_ev_cls(ofp_event.EventOFPPacketIn, handler.MAIN_DISPATCHER) def packet_in_handler(self, ev): if ev.msg.datapath.id in self.bridge_list: bridge = self.bridge_list[ev.msg.datapath.id] bridge.packet_in_handler(ev.msg) @set_ev_cls(ofp_event.EventOFPPortStatus, handler.MAIN_DISPATCHER) def port_status_handler(self, ev): dp = ev.msg.datapath dpid_str = {'dpid': dpid_to_str(dp.id)} port = ev.msg.desc reason = ev.msg.reason link_down_flg = port.state & 0b1 if dp.id in self.bridge_list: bridge = self.bridge_list[dp.id] if reason is dp.ofproto.OFPPR_ADD: self.logger.info('[port=%d] Port add.', port.port_no, extra=dpid_str) bridge.port_add(port) elif reason is dp.ofproto.OFPPR_DELETE: self.logger.info('[port=%d] Port delete.', port.port_no, extra=dpid_str) bridge.port_delete(port) else: assert reason is dp.ofproto.OFPPR_MODIFY if bridge.ports_state[port.port_no] == port.state: # Do nothing self.logger.debug('[port=%d] Link status not changed.', port.port_no, extra=dpid_str) return if link_down_flg: self.logger.info('[port=%d] Link down.', port.port_no, extra=dpid_str) bridge.link_down(port) else: self.logger.info('[port=%d] Link up.', port.port_no, extra=dpid_str) bridge.link_up(port) @staticmethod def compare_root_path(path_cost1, path_cost2, bridge_id1, bridge_id2, port_id1, port_id2): """ Decide the port of the side near a root bridge. It is compared by the following priorities. 1. root path cost 2. designated bridge ID value 3. designated port ID value """ result = Stp._cmp_value(path_cost1, path_cost2) if not result: result = Stp._cmp_value(bridge_id1, bridge_id2) if not result: result = Stp._cmp_value(port_id1, port_id2) return result @staticmethod def compare_bpdu_info(my_priority, my_times, rcv_priority, rcv_times): """ Check received BPDU is superior to currently held BPDU by the following comparison. - root bridge ID value - root path cost - designated bridge ID value - designated port ID value - times """ if my_priority is None: result = SUPERIOR else: result = Stp._cmp_value(rcv_priority.root_id.value, my_priority.root_id.value) if not result: result = Stp.compare_root_path( rcv_priority.root_path_cost, my_priority.root_path_cost, rcv_priority.designated_bridge_id.value, my_priority.designated_bridge_id.value, rcv_priority.designated_port_id.value, my_priority.designated_port_id.value) if not result: result1 = Stp._cmp_value( rcv_priority.designated_bridge_id.value, mac.haddr_to_int( my_priority.designated_bridge_id.mac_addr)) result2 = Stp._cmp_value( rcv_priority.designated_port_id.value, my_priority.designated_port_id.port_no) if not result1 and not result2: result = SUPERIOR else: result = Stp._cmp_obj(rcv_times, my_times) return result @staticmethod def _cmp_value(value1, value2): result = cmp(value1, value2) if result < 0: return SUPERIOR elif result == 0: return REPEATED else: return INFERIOR @staticmethod def _cmp_obj(obj1, obj2): for key in obj1.__dict__.keys(): if (not hasattr(obj2, key) or getattr(obj1, key) != getattr(obj2, key)): return SUPERIOR return REPEATED class Bridge(object): _DEFAULT_VALUE = {'priority': bpdu.DEFAULT_BRIDGE_PRIORITY, 'sys_ext_id': 0, 'max_age': bpdu.DEFAULT_MAX_AGE, 'hello_time': bpdu.DEFAULT_HELLO_TIME, 'fwd_delay': bpdu.DEFAULT_FORWARD_DELAY} def __init__(self, dp, logger, config, send_ev_func): super(Bridge, self).__init__() self.dp = dp self.logger = logger self.dpid_str = {'dpid': dpid_to_str(dp.id)} self.send_event = send_ev_func # Bridge data bridge_conf = config.get('bridge', {}) values = self._DEFAULT_VALUE for key, value in bridge_conf.items(): values[key] = value system_id = list(dp.ports.values())[0].hw_addr self.bridge_id = BridgeId(values['priority'], values['sys_ext_id'], system_id) self.bridge_times = Times(0, # message_age values['max_age'], values['hello_time'], values['fwd_delay']) # Root bridge data self.root_priority = Priority(self.bridge_id, 0, None, None) self.root_times = self.bridge_times # Ports self.ports = {} self.ports_state = {} self.ports_conf = config.get('ports', {}) for ofport in dp.ports.values(): self.port_add(ofport) # Install BPDU PacketIn flow. (OpenFlow 1.2/1.3) if dp.ofproto == ofproto_v1_2 or dp.ofproto == ofproto_v1_3: ofctl = OfCtl_v1_2later(self.dp) ofctl.add_bpdu_pkt_in_flow() @property def is_root_bridge(self): return bool(self.bridge_id.value == self.root_priority.root_id.value) def delete(self): for port in self.ports.values(): port.delete() def port_add(self, ofport): if ofport.port_no <= MAX_PORT_NO: port_conf = self.ports_conf.get(ofport.port_no, {}) self.ports[ofport.port_no] = Port(self.dp, self.logger, port_conf, self.send_event, self.recalculate_spanning_tree, self.topology_change_notify, self.bridge_id, self.bridge_times, ofport) self.ports_state[ofport.port_no] = ofport.state def port_delete(self, ofp_port): self.link_down(ofp_port) self.ports[ofp_port.port_no].delete() del self.ports[ofp_port.port_no] del self.ports_state[ofp_port.port_no] def link_up(self, ofp_port): port = self.ports[ofp_port.port_no] port.up(DESIGNATED_PORT, self.root_priority, self.root_times) self.ports_state[ofp_port.port_no] = ofp_port.state def link_down(self, ofp_port): """ DESIGNATED_PORT/NON_DESIGNATED_PORT: change status to DISABLE. ROOT_PORT: change status to DISABLE and recalculate STP. """ port = self.ports[ofp_port.port_no] init_stp_flg = bool(port.role is ROOT_PORT) port.down(PORT_STATE_DISABLE, msg_init=True) self.ports_state[ofp_port.port_no] = ofp_port.state if init_stp_flg: self.recalculate_spanning_tree() def packet_in_handler(self, msg): dp = msg.datapath if dp.ofproto == ofproto_v1_0: in_port_no = msg.in_port else: assert dp.ofproto == ofproto_v1_2 or dp.ofproto == ofproto_v1_3 in_port_no = None for match_field in msg.match.fields: if match_field.header == dp.ofproto.OXM_OF_IN_PORT: in_port_no = match_field.value break if in_port_no not in self.ports: return in_port = self.ports[in_port_no] if in_port.state == PORT_STATE_DISABLE: return pkt = packet.Packet(msg.data) if bpdu.ConfigurationBPDUs in pkt: # Received Configuration BPDU. # - If received superior BPDU: # Re-calculates spanning tree. # - If received Topology Change BPDU: # Throws EventTopologyChange. # Forwards Topology Change BPDU. (bpdu_pkt, ) = pkt.get_protocols(bpdu.ConfigurationBPDUs) if bpdu_pkt.message_age > bpdu_pkt.max_age: log_msg = 'Drop BPDU packet which message_age exceeded.' self.logger.debug(log_msg, extra=self.dpid_str) return rcv_info, rcv_tc = in_port.rcv_config_bpdu(bpdu_pkt) if rcv_info is SUPERIOR: self.logger.info('[port=%d] Receive superior BPDU.', in_port_no, extra=self.dpid_str) self.recalculate_spanning_tree(init=False) elif rcv_tc: self.send_event(EventTopologyChange(self.dp)) if in_port.role is ROOT_PORT: self._forward_tc_bpdu(rcv_tc) elif bpdu.TopologyChangeNotificationBPDUs in pkt: # Received Topology Change Notification BPDU. # Send Topology Change Ack BPDU and throws EventTopologyChange. # - Root bridge: # Sends Topology Change BPDU from all port. # - Non root bridge: # Sends Topology Change Notification BPDU to root bridge. in_port.transmit_ack_bpdu() self.topology_change_notify(None) elif bpdu.RstBPDUs in pkt: # Received Rst BPDU. # TODO: RSTP pass else: # Received non BPDU packet. # Throws EventPacketIn. self.send_event(EventPacketIn(msg)) def recalculate_spanning_tree(self, init=True): """ Re-calculation of spanning tree. """ # All port down. for port in self.ports.values(): if port.state is not PORT_STATE_DISABLE: port.down(PORT_STATE_BLOCK, msg_init=init) # Send topology change event. if init: self.send_event(EventTopologyChange(self.dp)) # Update tree roles. port_roles = {} self.root_priority = Priority(self.bridge_id, 0, None, None) self.root_times = self.bridge_times if init: self.logger.info('Root bridge.', extra=self.dpid_str) for port_no in self.ports: port_roles[port_no] = DESIGNATED_PORT else: (port_roles, self.root_priority, self.root_times) = self._spanning_tree_algorithm() # All port up. for port_no, role in port_roles.items(): if self.ports[port_no].state is not PORT_STATE_DISABLE: self.ports[port_no].up(role, self.root_priority, self.root_times) def _spanning_tree_algorithm(self): """ Update tree roles. - Root bridge: all port is DESIGNATED_PORT. - Non root bridge: select one ROOT_PORT and some DESIGNATED_PORT, and the other port is set to NON_DESIGNATED_PORT.""" port_roles = {} root_port = self._select_root_port() if root_port is None: # My bridge is a root bridge. self.logger.info('Root bridge.', extra=self.dpid_str) root_priority = self.root_priority root_times = self.root_times for port_no in self.ports: if self.ports[port_no].state is not PORT_STATE_DISABLE: port_roles[port_no] = DESIGNATED_PORT else: # Other bridge is a root bridge. self.logger.info('Non root bridge.', extra=self.dpid_str) root_priority = root_port.designated_priority root_times = root_port.designated_times port_roles[root_port.ofport.port_no] = ROOT_PORT d_ports = self._select_designated_port(root_port) for port_no in d_ports: port_roles[port_no] = DESIGNATED_PORT for port in self.ports.values(): if port.state is not PORT_STATE_DISABLE: port_roles.setdefault(port.ofport.port_no, NON_DESIGNATED_PORT) return port_roles, root_priority, root_times def _select_root_port(self): """ ROOT_PORT is the nearest port to a root bridge. It is determined by the cost of path, etc. """ root_port = None for port in self.ports.values(): root_msg = (self.root_priority if root_port is None else root_port.designated_priority) port_msg = port.designated_priority if port.state is PORT_STATE_DISABLE or port_msg is None: continue if root_msg.root_id.value > port_msg.root_id.value: result = SUPERIOR elif root_msg.root_id.value == port_msg.root_id.value: if root_msg.designated_bridge_id is None: result = INFERIOR else: result = Stp.compare_root_path( port_msg.root_path_cost, root_msg.root_path_cost, port_msg.designated_bridge_id.value, root_msg.designated_bridge_id.value, port_msg.designated_port_id.value, root_msg.designated_port_id.value) else: result = INFERIOR if result is SUPERIOR: root_port = port return root_port def _select_designated_port(self, root_port): """ DESIGNATED_PORT is a port of the side near the root bridge of each link. It is determined by the cost of each path, etc same as ROOT_PORT. """ d_ports = [] root_msg = root_port.designated_priority for port in self.ports.values(): port_msg = port.designated_priority if (port.state is PORT_STATE_DISABLE or port.ofport.port_no == root_port.ofport.port_no): continue if (port_msg is None or (port_msg.root_id.value != root_msg.root_id.value)): d_ports.append(port.ofport.port_no) else: result = Stp.compare_root_path( root_msg.root_path_cost, port_msg.root_path_cost - port.path_cost, self.bridge_id.value, port_msg.designated_bridge_id.value, port.port_id.value, port_msg.designated_port_id.value) if result is SUPERIOR: d_ports.append(port.ofport.port_no) return d_ports def topology_change_notify(self, port_state): notice = False if port_state is PORT_STATE_FORWARD: for port in self.ports.values(): if port.role is DESIGNATED_PORT: notice = True break else: notice = True if notice: self.send_event(EventTopologyChange(self.dp)) if self.is_root_bridge: self._transmit_tc_bpdu() else: self._transmit_tcn_bpdu() def _transmit_tc_bpdu(self): for port in self.ports.values(): port.transmit_tc_bpdu() def _transmit_tcn_bpdu(self): root_port = None for port in self.ports.values(): if port.role is ROOT_PORT: root_port = port break if root_port: root_port.transmit_tcn_bpdu() def _forward_tc_bpdu(self, fwd_flg): for port in self.ports.values(): port.send_tc_flg = fwd_flg class Port(object): _DEFAULT_VALUE = {'priority': bpdu.DEFAULT_PORT_PRIORITY, 'path_cost': bpdu.PORT_PATH_COST_10MB, 'enable': True} def __init__(self, dp, logger, config, send_ev_func, timeout_func, topology_change_func, bridge_id, bridge_times, ofport): super(Port, self).__init__() self.dp = dp self.logger = logger self.dpid_str = {'dpid': dpid_to_str(dp.id)} self.config_enable = config.get('enable', self._DEFAULT_VALUE['enable']) self.send_event = send_ev_func self.wait_bpdu_timeout = timeout_func self.topology_change_notify = topology_change_func self.ofctl = (OfCtl_v1_0(dp) if dp.ofproto == ofproto_v1_0 else OfCtl_v1_2later(dp)) # Bridge data self.bridge_id = bridge_id # Root bridge data self.port_priority = None self.port_times = None # ofproto_v1_X_parser.OFPPhyPort data self.ofport = ofport # Port data values = self._DEFAULT_VALUE path_costs = {dp.ofproto.OFPPF_10MB_HD: bpdu.PORT_PATH_COST_10MB, dp.ofproto.OFPPF_10MB_FD: bpdu.PORT_PATH_COST_10MB, dp.ofproto.OFPPF_100MB_HD: bpdu.PORT_PATH_COST_100MB, dp.ofproto.OFPPF_100MB_FD: bpdu.PORT_PATH_COST_100MB, dp.ofproto.OFPPF_1GB_HD: bpdu.PORT_PATH_COST_1GB, dp.ofproto.OFPPF_1GB_FD: bpdu.PORT_PATH_COST_1GB, dp.ofproto.OFPPF_10GB_FD: bpdu.PORT_PATH_COST_10GB} for rate in sorted(path_costs, reverse=True): if ofport.curr & rate: values['path_cost'] = path_costs[rate] break for key, value in values.items(): values[key] = value self.port_id = PortId(values['priority'], ofport.port_no) self.path_cost = values['path_cost'] self.state = (None if self.config_enable else PORT_STATE_DISABLE) self.role = None # Receive BPDU data self.designated_priority = None self.designated_times = None # BPDU handling threads self.send_bpdu_thread = PortThread(self._transmit_bpdu) self.wait_bpdu_thread = PortThread(self._wait_bpdu_timer) self.send_tc_flg = None self.send_tc_timer = None self.send_tcn_flg = None self.wait_timer_event = None # State machine thread self.state_machine = PortThread(self._state_machine) self.state_event = None self.up(DESIGNATED_PORT, Priority(bridge_id, 0, None, None), bridge_times) self.state_machine.start() self.logger.debug('[port=%d] Start port state machine.', self.ofport.port_no, extra=self.dpid_str) def delete(self): self.state_machine.stop() self.send_bpdu_thread.stop() self.wait_bpdu_thread.stop() if self.state_event is not None: self.state_event.set() self.state_event = None if self.wait_timer_event is not None: self.wait_timer_event.set() self.wait_timer_event = None self.logger.debug('[port=%d] Stop port threads.', self.ofport.port_no, extra=self.dpid_str) def up(self, role, root_priority, root_times): """ A port is started in the state of LISTEN. """ self.port_priority = root_priority self.port_times = root_times state = (PORT_STATE_LISTEN if self.config_enable else PORT_STATE_DISABLE) self._change_role(role) self._change_status(state) def down(self, state, msg_init=False): """ A port will be in the state of DISABLE or BLOCK, and be stopped. """ assert (state is PORT_STATE_DISABLE or state is PORT_STATE_BLOCK) if not self.config_enable: return if msg_init: self.designated_priority = None self.designated_times = None self._change_role(DESIGNATED_PORT) self._change_status(state) def _state_machine(self): """ Port state machine. Change next status when timer is exceeded or _change_status() method is called.""" role_str = {ROOT_PORT: 'ROOT_PORT ', DESIGNATED_PORT: 'DESIGNATED_PORT ', NON_DESIGNATED_PORT: 'NON_DESIGNATED_PORT'} state_str = {PORT_STATE_DISABLE: 'DISABLE', PORT_STATE_BLOCK: 'BLOCK', PORT_STATE_LISTEN: 'LISTEN', PORT_STATE_LEARN: 'LEARN', PORT_STATE_FORWARD: 'FORWARD'} if self.state is PORT_STATE_DISABLE: self.ofctl.set_port_status(self.ofport, self.state) while True: self.logger.info('[port=%d] %s / %s', self.ofport.port_no, role_str[self.role], state_str[self.state], extra=self.dpid_str) self.state_event = hub.Event() timer = self._get_timer() if timer: timeout = hub.Timeout(timer) try: self.state_event.wait() except hub.Timeout as t: if t is not timeout: err_msg = 'Internal error. Not my timeout.' raise OSKenException(msg=err_msg) new_state = self._get_next_state() self._change_status(new_state, thread_switch=False) finally: timeout.cancel() else: self.state_event.wait() self.state_event = None def _get_timer(self): timer = {PORT_STATE_DISABLE: None, PORT_STATE_BLOCK: None, PORT_STATE_LISTEN: self.port_times.forward_delay, PORT_STATE_LEARN: self.port_times.forward_delay, PORT_STATE_FORWARD: None} return timer[self.state] def _get_next_state(self): next_state = {PORT_STATE_DISABLE: None, PORT_STATE_BLOCK: None, PORT_STATE_LISTEN: PORT_STATE_LEARN, PORT_STATE_LEARN: (PORT_STATE_FORWARD if (self.role is ROOT_PORT or self.role is DESIGNATED_PORT) else PORT_STATE_BLOCK), PORT_STATE_FORWARD: None} return next_state[self.state] def _change_status(self, new_state, thread_switch=True): if new_state is not PORT_STATE_DISABLE: self.ofctl.set_port_status(self.ofport, new_state) if(new_state is PORT_STATE_FORWARD or (self.state is PORT_STATE_FORWARD and (new_state is PORT_STATE_DISABLE or new_state is PORT_STATE_BLOCK))): self.topology_change_notify(new_state) if (new_state is PORT_STATE_DISABLE or new_state is PORT_STATE_BLOCK): self.send_tc_flg = False self.send_tc_timer = None self.send_tcn_flg = False self.send_bpdu_thread.stop() elif new_state is PORT_STATE_LISTEN: self.send_bpdu_thread.start() self.state = new_state self.send_event(EventPortStateChange(self.dp, self)) if self.state_event is not None: self.state_event.set() self.state_event = None if thread_switch: hub.sleep(0) # For thread switching. def _change_role(self, new_role): if self.role is new_role: return self.role = new_role if (new_role is ROOT_PORT or new_role is NON_DESIGNATED_PORT): self.wait_bpdu_thread.start() else: assert new_role is DESIGNATED_PORT self.wait_bpdu_thread.stop() def rcv_config_bpdu(self, bpdu_pkt): # Check received BPDU is superior to currently held BPDU. root_id = BridgeId(bpdu_pkt.root_priority, bpdu_pkt.root_system_id_extension, bpdu_pkt.root_mac_address) root_path_cost = bpdu_pkt.root_path_cost designated_bridge_id = BridgeId(bpdu_pkt.bridge_priority, bpdu_pkt.bridge_system_id_extension, bpdu_pkt.bridge_mac_address) designated_port_id = PortId(bpdu_pkt.port_priority, bpdu_pkt.port_number) msg_priority = Priority(root_id, root_path_cost, designated_bridge_id, designated_port_id) msg_times = Times(bpdu_pkt.message_age, bpdu_pkt.max_age, bpdu_pkt.hello_time, bpdu_pkt.forward_delay) rcv_info = Stp.compare_bpdu_info(self.designated_priority, self.designated_times, msg_priority, msg_times) if rcv_info is SUPERIOR: self.designated_priority = msg_priority self.designated_times = msg_times chk_flg = False if ((rcv_info is SUPERIOR or rcv_info is REPEATED) and (self.role is ROOT_PORT or self.role is NON_DESIGNATED_PORT)): self._update_wait_bpdu_timer() chk_flg = True elif rcv_info is INFERIOR and self.role is DESIGNATED_PORT: chk_flg = True # Check TopologyChange flag. rcv_tc = False if chk_flg: tc_flag_mask = 0b00000001 tcack_flag_mask = 0b10000000 if bpdu_pkt.flags & tc_flag_mask: self.logger.debug('[port=%d] receive TopologyChange BPDU.', self.ofport.port_no, extra=self.dpid_str) rcv_tc = True if bpdu_pkt.flags & tcack_flag_mask: self.logger.debug('[port=%d] receive TopologyChangeAck BPDU.', self.ofport.port_no, extra=self.dpid_str) if self.send_tcn_flg: self.send_tcn_flg = False return rcv_info, rcv_tc def _update_wait_bpdu_timer(self): if self.wait_timer_event is not None: self.wait_timer_event.set() self.wait_timer_event = None self.logger.debug('[port=%d] Wait BPDU timer is updated.', self.ofport.port_no, extra=self.dpid_str) hub.sleep(0) # For thread switching. def _wait_bpdu_timer(self): time_exceed = False while True: self.wait_timer_event = hub.Event() message_age = (self.designated_times.message_age if self.designated_times else 0) timer = self.port_times.max_age - message_age timeout = hub.Timeout(timer) try: self.wait_timer_event.wait() except hub.Timeout as t: if t is not timeout: err_msg = 'Internal error. Not my timeout.' raise OSKenException(msg=err_msg) self.logger.info('[port=%d] Wait BPDU timer is exceeded.', self.ofport.port_no, extra=self.dpid_str) time_exceed = True finally: timeout.cancel() self.wait_timer_event = None if time_exceed: break if time_exceed: # Bridge.recalculate_spanning_tree hub.spawn(self.wait_bpdu_timeout) def _transmit_bpdu(self): while True: # Send config BPDU packet if port role is DESIGNATED_PORT. if self.role == DESIGNATED_PORT: now = datetime.datetime.today() if self.send_tc_timer and self.send_tc_timer < now: self.send_tc_timer = None self.send_tc_flg = False if not self.send_tc_flg: flags = 0b00000000 log_msg = '[port=%d] Send Config BPDU.' else: flags = 0b00000001 log_msg = '[port=%d] Send TopologyChange BPDU.' bpdu_data = self._generate_config_bpdu(flags) self.ofctl.send_packet_out(self.ofport.port_no, bpdu_data) self.logger.debug(log_msg, self.ofport.port_no, extra=self.dpid_str) # Send Topology Change Notification BPDU until receive Ack. if self.send_tcn_flg: bpdu_data = self._generate_tcn_bpdu() self.ofctl.send_packet_out(self.ofport.port_no, bpdu_data) self.logger.debug('[port=%d] Send TopologyChangeNotify BPDU.', self.ofport.port_no, extra=self.dpid_str) hub.sleep(self.port_times.hello_time) def transmit_tc_bpdu(self): """ Set send_tc_flg to send Topology Change BPDU. """ if not self.send_tc_flg: timer = datetime.timedelta(seconds=self.port_times.max_age + self.port_times.forward_delay) self.send_tc_timer = datetime.datetime.today() + timer self.send_tc_flg = True def transmit_ack_bpdu(self): """ Send Topology Change Ack BPDU. """ ack_flags = 0b10000001 bpdu_data = self._generate_config_bpdu(ack_flags) self.ofctl.send_packet_out(self.ofport.port_no, bpdu_data) def transmit_tcn_bpdu(self): self.send_tcn_flg = True def _generate_config_bpdu(self, flags): src_mac = self.ofport.hw_addr dst_mac = bpdu.BRIDGE_GROUP_ADDRESS length = (bpdu.bpdu._PACK_LEN + bpdu.ConfigurationBPDUs.PACK_LEN + llc.llc._PACK_LEN + llc.ControlFormatU._PACK_LEN) e = ethernet.ethernet(dst_mac, src_mac, length) l = llc.llc(llc.SAP_BPDU, llc.SAP_BPDU, llc.ControlFormatU()) b = bpdu.ConfigurationBPDUs( flags=flags, root_priority=self.port_priority.root_id.priority, root_mac_address=self.port_priority.root_id.mac_addr, root_path_cost=self.port_priority.root_path_cost + self.path_cost, bridge_priority=self.bridge_id.priority, bridge_mac_address=self.bridge_id.mac_addr, port_priority=self.port_id.priority, port_number=self.ofport.port_no, message_age=self.port_times.message_age + 1, max_age=self.port_times.max_age, hello_time=self.port_times.hello_time, forward_delay=self.port_times.forward_delay) pkt = packet.Packet() pkt.add_protocol(e) pkt.add_protocol(l) pkt.add_protocol(b) pkt.serialize() return pkt.data def _generate_tcn_bpdu(self): src_mac = self.ofport.hw_addr dst_mac = bpdu.BRIDGE_GROUP_ADDRESS length = (bpdu.bpdu._PACK_LEN + bpdu.TopologyChangeNotificationBPDUs.PACK_LEN + llc.llc._PACK_LEN + llc.ControlFormatU._PACK_LEN) e = ethernet.ethernet(dst_mac, src_mac, length) l = llc.llc(llc.SAP_BPDU, llc.SAP_BPDU, llc.ControlFormatU()) b = bpdu.TopologyChangeNotificationBPDUs() pkt = packet.Packet() pkt.add_protocol(e) pkt.add_protocol(l) pkt.add_protocol(b) pkt.serialize() return pkt.data class PortThread(object): def __init__(self, function): super(PortThread, self).__init__() self.function = function self.thread = None def start(self): self.stop() self.thread = hub.spawn(self.function) def stop(self): if self.thread is not None: hub.kill(self.thread) hub.joinall([self.thread]) self.thread = None class BridgeId(object): def __init__(self, priority, system_id_extension, mac_addr): super(BridgeId, self).__init__() self.priority = priority self.system_id_extension = system_id_extension self.mac_addr = mac_addr self.value = bpdu.ConfigurationBPDUs.encode_bridge_id( priority, system_id_extension, mac_addr) class PortId(object): def __init__(self, priority, port_no): super(PortId, self).__init__() self.priority = priority self.port_no = port_no self.value = bpdu.ConfigurationBPDUs.encode_port_id(priority, port_no) class Priority(object): def __init__(self, root_id, root_path_cost, designated_bridge_id, designated_port_id): super(Priority, self).__init__() self.root_id = root_id self.root_path_cost = root_path_cost self.designated_bridge_id = designated_bridge_id self.designated_port_id = designated_port_id class Times(object): def __init__(self, message_age, max_age, hello_time, forward_delay): super(Times, self).__init__() self.message_age = message_age self.max_age = max_age self.hello_time = hello_time self.forward_delay = forward_delay class OfCtl_v1_0(object): def __init__(self, dp): super(OfCtl_v1_0, self).__init__() self.dp = dp def send_packet_out(self, out_port, data): actions = [self.dp.ofproto_parser.OFPActionOutput(out_port, 0)] self.dp.send_packet_out(buffer_id=self.dp.ofproto.OFP_NO_BUFFER, in_port=self.dp.ofproto.OFPP_CONTROLLER, actions=actions, data=data) def set_port_status(self, port, state): ofproto_parser = self.dp.ofproto_parser mask = 0b1111111 msg = ofproto_parser.OFPPortMod(self.dp, port.port_no, port.hw_addr, PORT_CONFIG_V1_0[state], mask, port.advertised) self.dp.send_msg(msg) class OfCtl_v1_2later(OfCtl_v1_0): def __init__(self, dp): super(OfCtl_v1_2later, self).__init__(dp) def set_port_status(self, port, state): ofp = self.dp.ofproto parser = self.dp.ofproto_parser config = {ofproto_v1_2: PORT_CONFIG_V1_2, ofproto_v1_3: PORT_CONFIG_V1_3} # Only turn on the relevant bits defined on OpenFlow 1.2+, otherwise # some switch that follows the specification strictly will report # OFPPMFC_BAD_CONFIG error. mask = 0b1100101 msg = parser.OFPPortMod(self.dp, port.port_no, port.hw_addr, config[ofp][state], mask, port.advertised) self.dp.send_msg(msg) if config[ofp][state] & ofp.OFPPC_NO_PACKET_IN: self.add_no_pkt_in_flow(port.port_no) else: self.del_no_pkt_in_flow(port.port_no) def add_bpdu_pkt_in_flow(self): ofp = self.dp.ofproto parser = self.dp.ofproto_parser match = parser.OFPMatch(eth_dst=bpdu.BRIDGE_GROUP_ADDRESS) actions = [parser.OFPActionOutput(ofp.OFPP_CONTROLLER, ofp.OFPCML_NO_BUFFER)] inst = [parser.OFPInstructionActions(ofp.OFPIT_APPLY_ACTIONS, actions)] mod = parser.OFPFlowMod(self.dp, priority=BPDU_PKT_IN_PRIORITY, match=match, instructions=inst) self.dp.send_msg(mod) def add_no_pkt_in_flow(self, in_port): parser = self.dp.ofproto_parser match = parser.OFPMatch(in_port=in_port) mod = parser.OFPFlowMod(self.dp, priority=NO_PKT_IN_PRIORITY, match=match) self.dp.send_msg(mod) def del_no_pkt_in_flow(self, in_port): ofp = self.dp.ofproto parser = self.dp.ofproto_parser match = parser.OFPMatch(in_port=in_port) mod = parser.OFPFlowMod(self.dp, command=ofp.OFPFC_DELETE_STRICT, out_port=ofp.OFPP_ANY, out_group=ofp.OFPG_ANY, priority=NO_PKT_IN_PRIORITY, match=match) self.dp.send_msg(mod)