python/ofagent/of_connection.py - voltha-go - Gitiles

 #
 # Copyright 2017 the original author or authors.
 #
 # 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 structlog
 from hexdump import hexdump
 from twisted.internet import protocol

 import loxi.of14
 from pyvoltha.common.utils.message_queue import MessageQueue

 log = structlog.get_logger()


 class OpenFlowConnection(protocol.Protocol):

     def __init__(self, agent):
         self.agent = agent  # the protocol will call agent.enter_disconnected()
                             # and agent.enter_connected() methods to indicate
                             # when state change is necessary
         self.next_xid = 1
         self.read_buffer = None
         self.rx = MessageQueue()

     def connectionLost(self, reason):
         self.agent.enter_disconnected('connection-lost', reason)

     def connectionMade(self):
         self.agent.enter_connected()

     def dataReceived(self, data):
         log.debug('data-received', len=len(data),
                   received=hexdump(data, result='return'))

         assert len(data)  # connection close shall be handled by the protocol
         buf = self.read_buffer
         if buf:
             buf += data
         else:
             buf = data

         offset = 0
         while offset < len(buf):
             if offset + 8 > len(buf):
                 break  # not enough data for the OpenFlow header

             # parse the header to get type
             _version, _type, _len, _xid = \
                 loxi.of14.message.parse_header(buf[offset:])

             ofp = loxi.protocol(_version)

             if (offset + _len) > len(buf):
                 break  # not enough data to cover whole message

             rawmsg = buf[offset : offset + _len]
             offset += _len

             msg = ofp.message.parse_message(rawmsg)
             if not msg:
                 log.warn('could-not-parse',
                          data=hexdump(rawmsg, result='return'))
             log.debug('received-msg', module=type(msg).__module__,
                   name=type(msg).__name__, xid=msg.xid, len=len(buf))
             self.rx.put(msg)

         if offset == len(buf):
             self.read_buffer = None
         else:
             self.read_buffer = buf[offset:]
             log.debug('remaining', len=len(self.read_buffer))

     def send_raw(self, buf):
         """
         Send raw bytes on the socket
         :param buf: bytes buffer
         :return: None
         """
         assert self.connected
         log.debug('sending-raw', len=len(buf))
         self.transport.write(buf)

     def send(self, msg):
         """
         Send a message
         :param msg: An OpenFlow protocol message
         :return: None
         """
         assert self.connected

         if msg.xid is None:
             msg.xid = self._gen_xid()
         buf = msg.pack()
         log.debug('sending', module=type(msg).__module__,
                   name=type(msg).__name__, xid=msg.xid, len=len(buf))
         self.transport.write(buf)
         log.debug('data-sent', sent=hexdump(buf, result='return'))

     def recv(self, predicate):
         assert self.connected
         return self.rx.get(predicate)

     def recv_any(self):
         return self.recv(lambda _: True)

     def recv_xid(self, xid):
         return self.recv(lambda msg: msg.xid == xid)

     def recv_class(self, klass):
         return self.recv(lambda msg: isinstance(msg, klass))

     def _gen_xid(self):
         xid = self.next_xid
         self.next_xid += 1
         return xid
	#
	# Copyright 2017 the original author or authors.
	#
	# 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 structlog
	from hexdump import hexdump
	from twisted.internet import protocol

	import loxi.of14
	from pyvoltha.common.utils.message_queue import MessageQueue

	log = structlog.get_logger()


	class OpenFlowConnection(protocol.Protocol):

	def __init__(self, agent):
	self.agent = agent # the protocol will call agent.enter_disconnected()
	# and agent.enter_connected() methods to indicate
	# when state change is necessary
	self.next_xid = 1
	self.read_buffer = None
	self.rx = MessageQueue()

	def connectionLost(self, reason):
	self.agent.enter_disconnected('connection-lost', reason)

	def connectionMade(self):
	self.agent.enter_connected()

	def dataReceived(self, data):
	log.debug('data-received', len=len(data),
	received=hexdump(data, result='return'))

	assert len(data) # connection close shall be handled by the protocol
	buf = self.read_buffer
	if buf:
	buf += data
	else:
	buf = data

	offset = 0
	while offset < len(buf):
	if offset + 8 > len(buf):
	break # not enough data for the OpenFlow header

	# parse the header to get type
	_version, _type, _len, _xid = \
	loxi.of14.message.parse_header(buf[offset:])

	ofp = loxi.protocol(_version)

	if (offset + _len) > len(buf):
	break # not enough data to cover whole message

	rawmsg = buf[offset : offset + _len]
	offset += _len

	msg = ofp.message.parse_message(rawmsg)
	if not msg:
	log.warn('could-not-parse',
	data=hexdump(rawmsg, result='return'))
	log.debug('received-msg', module=type(msg).__module__,
	name=type(msg).__name__, xid=msg.xid, len=len(buf))
	self.rx.put(msg)

	if offset == len(buf):
	self.read_buffer = None
	else:
	self.read_buffer = buf[offset:]
	log.debug('remaining', len=len(self.read_buffer))

	def send_raw(self, buf):
	"""
	Send raw bytes on the socket
	:param buf: bytes buffer
	:return: None
	"""
	assert self.connected
	log.debug('sending-raw', len=len(buf))
	self.transport.write(buf)

	def send(self, msg):
	"""
	Send a message
	:param msg: An OpenFlow protocol message
	:return: None
	"""
	assert self.connected

	if msg.xid is None:
	msg.xid = self._gen_xid()
	buf = msg.pack()
	log.debug('sending', module=type(msg).__module__,
	name=type(msg).__name__, xid=msg.xid, len=len(buf))
	self.transport.write(buf)
	log.debug('data-sent', sent=hexdump(buf, result='return'))

	def recv(self, predicate):
	assert self.connected
	return self.rx.get(predicate)

	def recv_any(self):
	return self.recv(lambda _: True)

	def recv_xid(self, xid):
	return self.recv(lambda msg: msg.xid == xid)

	def recv_class(self, klass):
	return self.recv(lambda msg: isinstance(msg, klass))

	def _gen_xid(self):
	xid = self.next_xid
	self.next_xid += 1
	return xid