# Copyright (C) 2011, 2012 Nippon Telegraph and Telephone Corporation. # Copyright (C) 2011, 2012 Isaku Yamahata # # 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 itertools import logging import ryu.base.app_manager from ryu.lib import hub from ryu import utils from ryu.controller import ofp_event from ryu.controller.controller import OpenFlowController from ryu.controller.handler import set_ev_handler from ryu.controller.handler import HANDSHAKE_DISPATCHER, CONFIG_DISPATCHER,\ MAIN_DISPATCHER # The state transition: HANDSHAKE -> CONFIG -> MAIN # # HANDSHAKE: if it receives HELLO message with the valid OFP version, # sends Features Request message, and moves to CONFIG. # # CONFIG: it receives Features Reply message and moves to MAIN # # MAIN: it does nothing. Applications are expected to register their # own handlers. # # Note that at any state, when we receive Echo Request message, send # back Echo Reply message. class OFPHandler(ryu.base.app_manager.RyuApp): def __init__(self, *args, **kwargs): super(OFPHandler, self).__init__(*args, **kwargs) self.name = 'ofp_event' def start(self): super(OFPHandler, self).start() return hub.spawn(OpenFlowController()) def _hello_failed(self, datapath, error_desc): self.logger.error(error_desc) error_msg = datapath.ofproto_parser.OFPErrorMsg(datapath) error_msg.type = datapath.ofproto.OFPET_HELLO_FAILED error_msg.code = datapath.ofproto.OFPHFC_INCOMPATIBLE error_msg.data = error_desc datapath.send_msg(error_msg) @set_ev_handler(ofp_event.EventOFPHello, HANDSHAKE_DISPATCHER) def hello_handler(self, ev): self.logger.debug('hello ev %s', ev) msg = ev.msg datapath = msg.datapath # check if received version is supported. # pre 1.0 is not supported elements = getattr(msg, 'elements', None) if elements: switch_versions = set() for version in itertools.chain.from_iterable( element.versions for element in elements): switch_versions.add(version) usable_versions = switch_versions & set( datapath.supported_ofp_version) # We didn't send our supported versions for interoperability as # most switches would not understand elements at the moment. # So the switch would think that the negotiated version would # be max(negotiated_versions), but actual usable version is # max(usable_versions). negotiated_versions = set( version for version in switch_versions if version <= max(datapath.supported_ofp_version)) if negotiated_versions and not usable_versions: # e.g. # versions of OF 1.0 and 1.1 from switch # max of OF 1.2 from Ryu and supported_ofp_version = (1.2, ) # negotiated version = 1.1 # usable version = None error_desc = ( 'no compatible version found: ' 'switch versions %s controller version 0x%x, ' 'the negotiated version is 0x%x, ' 'but no usable version found. ' 'If possible, set the switch to use one of OF version %s' % (switch_versions, max(datapath.supported_ofp_version), max(negotiated_versions), sorted(datapath.supported_ofp_version))) self._hello_failed(datapath, error_desc) return if (negotiated_versions and usable_versions and max(negotiated_versions) != max(usable_versions)): # e.g. # versions of OF 1.0 and 1.1 from switch # max of OF 1.2 from Ryu and supported_ofp_version = (1.0, 1.2) # negotiated version = 1.1 # usable version = 1.0 # # TODO: In order to get the version 1.0, Ryu need to send # supported verions. error_desc = ( 'no compatible version found: ' 'switch versions 0x%x controller version 0x%x, ' 'the negotiated version is %s but found usable %s. ' 'If possible, ' 'set the switch to use one of OF version %s' % ( max(switch_versions), max(datapath.supported_ofp_version), sorted(negotiated_versions), sorted(usable_versions), sorted(usable_versions))) self._hello_failed(datapath, error_desc) return else: usable_versions = set(version for version in datapath.supported_ofp_version if version <= msg.version) if (usable_versions and max(usable_versions) != min(msg.version, datapath.ofproto.OFP_VERSION)): # The version of min(msg.version, datapath.ofproto.OFP_VERSION) # should be used according to the spec. But we can't. # So log it and use max(usable_versions) with the hope that # the switch is able to understand lower version. # e.g. # OF 1.1 from switch # OF 1.2 from Ryu and supported_ofp_version = (1.0, 1.2) # In this case, 1.1 should be used according to the spec, # but 1.1 can't be used. # # OF1.3.1 6.3.1 # Upon receipt of this message, the recipient must # calculate the OpenFlow protocol version to be used. If # both the Hello message sent and the Hello message # received contained a OFPHET_VERSIONBITMAP hello element, # and if those bitmaps have some common bits set, the # negotiated version must be the highest version set in # both bitmaps. Otherwise, the negotiated version must be # the smaller of the version number that was sent and the # one that was received in the version fields. If the # negotiated version is supported by the recipient, then # the connection proceeds. Otherwise, the recipient must # reply with an OFPT_ERROR message with a type field of # OFPET_HELLO_FAILED, a code field of OFPHFC_INCOMPATIBLE, # and optionally an ASCII string explaining the situation # in data, and then terminate the connection. version = max(usable_versions) error_desc = ( 'no compatible version found: ' 'switch 0x%x controller 0x%x, but found usable 0x%x. ' 'If possible, set the switch to use OF version 0x%x' % ( msg.version, datapath.ofproto.OFP_VERSION, version, version)) self._hello_failed(datapath, error_desc) return if not usable_versions: error_desc = ( 'unsupported version 0x%x. ' 'If possible, set the switch to use one of the versions %s' % ( msg.version, sorted(datapath.supported_ofp_version))) self._hello_failed(datapath, error_desc) return datapath.set_version(max(usable_versions)) # now send feature features_reqeust = datapath.ofproto_parser.OFPFeaturesRequest(datapath) datapath.send_msg(features_reqeust) # now move on to config state self.logger.debug('move onto config mode') datapath.set_state(CONFIG_DISPATCHER) @set_ev_handler(ofp_event.EventOFPSwitchFeatures, CONFIG_DISPATCHER) def switch_features_handler(self, ev): msg = ev.msg datapath = msg.datapath self.logger.debug('switch features ev %s', msg) datapath.id = msg.datapath_id # hacky workaround, will be removed. OF1.3 doesn't have # ports. An application should not depend on them. But there # might be such bad applications so keep this workaround for # while. if datapath.ofproto.OFP_VERSION < 0x04: datapath.ports = msg.ports else: datapath.ports = {} ofproto = datapath.ofproto ofproto_parser = datapath.ofproto_parser set_config = ofproto_parser.OFPSetConfig( datapath, ofproto.OFPC_FRAG_NORMAL, 128 # TODO:XXX ) datapath.send_msg(set_config) if datapath.ofproto.OFP_VERSION < 0x04: self.logger.debug('move onto main mode') ev.msg.datapath.set_state(MAIN_DISPATCHER) else: port_desc = datapath.ofproto_parser.OFPPortDescStatsRequest( datapath, 0) datapath.send_msg(port_desc) @set_ev_handler(ofp_event.EventOFPPortDescStatsReply, CONFIG_DISPATCHER) def multipart_reply_handler(self, ev): msg = ev.msg datapath = msg.datapath for port in msg.body: datapath.ports[port.port_no] = port if msg.flags & datapath.ofproto.OFPMPF_REPLY_MORE: return self.logger.debug('move onto main mode') ev.msg.datapath.set_state(MAIN_DISPATCHER) @set_ev_handler(ofp_event.EventOFPEchoRequest, [HANDSHAKE_DISPATCHER, CONFIG_DISPATCHER, MAIN_DISPATCHER]) def echo_request_handler(self, ev): msg = ev.msg datapath = msg.datapath echo_reply = datapath.ofproto_parser.OFPEchoReply(datapath) echo_reply.xid = msg.xid echo_reply.data = msg.data datapath.send_msg(echo_reply) @set_ev_handler(ofp_event.EventOFPErrorMsg, [HANDSHAKE_DISPATCHER, CONFIG_DISPATCHER, MAIN_DISPATCHER]) def error_msg_handler(self, ev): msg = ev.msg self.logger.debug('error msg ev %s type 0x%x code 0x%x %s', msg, msg.type, msg.code, utils.hex_array(msg.data))