python/ofagent/loxi/connection.py - voltha-go - Gitiles

 # Copyright 2017-present Open Networking Foundation
 #
 # 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.
 # Copyright 2015, Big Switch Networks, Inc.

 """
 OpenFlow connection class

 This class creates a thread which continually parses OpenFlow messages off the
 supplied socket and places them in a queue. The class has methods for reading messages
 from the RX queue, sending messages, and higher level operations like request-response
 and multipart transactions.
 """

 import loxi
 import loxi.of14
 import logging
 import time
 import socket
 import errno
 import os
 import select
 from threading import Condition, Lock, Thread

 DEFAULT_TIMEOUT = 1

 class TransactionError(Exception):
     def __str__(self):
         return self.args[0]

     @property
     def msg(self):
         return self.args[1]

 class ConnectionClosed(Exception):
     pass

 class Connection(Thread):
     def __init__(self, sock):
         Thread.__init__(self)
         self.sock = sock
         self.logger = logging.getLogger("connection")
         self.rx = []
         self.rx_cv = Condition()
         self.tx_lock = Lock()
         self.next_xid = 1
         self.wakeup_rd, self.wakeup_wr = os.pipe()
         self.finished = False
         self.read_buffer = None

     def start(self):
         while not self.finished:
             try:
                 rd, wr, err = select.select([self.sock, self.wakeup_rd], [], [])
             except select.error:
                 print 'SELECT ERROR!!!'
             if self.sock in rd:
                 try:
                     self.process_read()
                 except ConnectionClosed:
                     self.logger.info("Connection to controller was dropped")
                     self.finished = True
             if self.wakeup_rd in rd:
                 os.read(self.wakeup_rd, 1)
         self.logger.debug("Exited event loop")

     def process_read(self):
         recvd = self.sock.recv(4096)
         if (len(recvd)) == 0:
             # this indicates that the other end hang up
             raise ConnectionClosed()

         self.logger.debug("Received %d bytes", len(recvd))

         buf = self.read_buffer
         if buf:
             buf += recvd
         else:
             buf = recvd

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

             # Parse the header to get type
             hdr_version, hdr_type, hdr_msglen, hdr_xid = loxi.of14.message.parse_header(buf[offset:])

             # Use loxi to resolve ofp of matching version
             ofp = loxi.protocol(hdr_version)

             # Extract the raw message bytes
             if (offset + hdr_msglen) > len(buf):
                 # Not enough data for the body
                 break
             rawmsg = buf[offset : offset + hdr_msglen]
             offset += hdr_msglen

             msg = ofp.message.parse_message(rawmsg)
             if not msg:
                 self.logger.warn("Could not parse message")
                 continue

             self.logger.debug("Received message %s.%s xid %d length %d",
                               type(msg).__module__, type(msg).__name__, hdr_xid, hdr_msglen)

             with self.rx_cv:
                 self.rx.append(msg)
                 self.rx_cv.notify_all()

         if offset == len(buf):
             self.read_buffer = None
         else:
             self.read_buffer = buf[offset:]
             self.logger.debug("%d bytes remaining", len(self.read_buffer))

     def recv(self, predicate, timeout=DEFAULT_TIMEOUT):
         """
         Remove and return the first message in the RX queue for
         which 'predicate' returns true
         """
         assert self.is_alive()

         deadline = time.time() + timeout
         while True:
             with self.rx_cv:
                 for i, msg in enumerate(self.rx):
                     if predicate(msg):
                         return self.rx.pop(i)

                 now = time.time()
                 if now > deadline:
                     return None
                 else:
                     self.rx_cv.wait(deadline - now)

     def recv_any(self, timeout=DEFAULT_TIMEOUT):
         """
         Return the first message in the RX queue
         """
         return self.recv(lambda msg: True, timeout)

     def recv_xid(self, xid, timeout=DEFAULT_TIMEOUT):
         """
         Return the first message in the RX queue with XID 'xid'
         """
         return self.recv(lambda msg: msg.xid == xid, timeout)

     def recv_class(self, klass, timeout=DEFAULT_TIMEOUT):
         """
         Return the first message in the RX queue which is an instance of 'klass'
         """
         return self.recv(lambda msg: isinstance(msg, klass), timeout)

     def send_raw(self, buf):
         """
         Send raw bytes on the socket
         """
         assert self.is_alive()
         self.logger.debug("Sending raw message length %d", len(buf))
         with self.tx_lock:
             if self.sock.sendall(buf) is not None:
                 raise RuntimeError("failed to send message to switch")

     def send(self, msg):
         """
         Send a message
         """
         assert self.is_alive()

         if msg.xid is None:
             msg.xid = self._gen_xid()
         buf = msg.pack()
         self.logger.debug("Sending message %s.%s xid %d length %d",
                           type(msg).__module__, type(msg).__name__, msg.xid, len(buf))
         with self.tx_lock:
             if self.sock.sendall(buf) is not None:
                 raise RuntimeError("failed to send message to switch")

     def transact(self, msg, timeout=DEFAULT_TIMEOUT):
         """
         Send a message and return the reply
         """
         self.send(msg)
         reply = self.recv_xid(msg.xid, timeout)
         if reply is None:
             raise TransactionError("no reply for %s" % type(msg).__name__, None)
         elif isinstance(reply, loxi.protocol(reply.version).message.error_msg):
             raise TransactionError("received %s in response to %s" % (type(reply).__name__, type(msg).__name__), reply)
         return reply

     def transact_multipart_generator(self, msg, timeout=DEFAULT_TIMEOUT):
         """
         Send a multipart request and yield each entry from the replies
         """
         self.send(msg)
         finished = False
         while not finished:
             reply = self.recv_xid(msg.xid, timeout)
             if reply is None:
                 raise TransactionError("no reply for %s" % type(msg).__name__, None)
             elif not isinstance(reply, loxi.protocol(reply.version).message.stats_reply):
                 raise TransactionError("received %s in response to %s" % (type(reply).__name__, type(msg).__name__), reply)
             for entry in reply.entries:
                 yield entry
             finished = reply.flags & loxi.protocol(reply.version).OFPSF_REPLY_MORE == 0

     def transact_multipart(self, msg, timeout=DEFAULT_TIMEOUT):
         """
         Send a multipart request and return all entries from the replies
         """
         entries = []
         for entry in self.transact_multipart_generator(msg, timeout):
             entries.append(entry)
         return entries

     def stop(self):
         """
         Signal the thread to exit and wait for it
         """
         assert not self.finished
         self.logger.debug("Stopping connection")
         self.finished = True
         os.write(self.wakeup_wr, "x")
         self.join()
         self.sock.close()
         os.close(self.wakeup_rd)
         os.close(self.wakeup_wr)
         self.logger.debug("Stopped connection")

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

 def connect(ip, port=6653, daemon=True, ofp=loxi.of14):
     """
     Actively connect to a switch
     """
     soc = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
     soc.connect((ip, port))
     soc.setsockopt(socket.IPPROTO_TCP, socket.TCP_NODELAY, True)
     cxn = Connection(soc)
     cxn.daemon = daemon
     cxn.logger.debug("Connected to %s:%d", ip, port)
     cxn.start()

     cxn.send(ofp.message.hello())
     if not cxn.recv(lambda msg: msg.type == ofp.OFPT_HELLO):
         raise Exception("Did not receive HELLO")

     return cxn
	# Copyright 2017-present Open Networking Foundation
	#
	# 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.
	# Copyright 2015, Big Switch Networks, Inc.

	"""
	OpenFlow connection class

	This class creates a thread which continually parses OpenFlow messages off the
	supplied socket and places them in a queue. The class has methods for reading messages
	from the RX queue, sending messages, and higher level operations like request-response
	and multipart transactions.
	"""

	import loxi
	import loxi.of14
	import logging
	import time
	import socket
	import errno
	import os
	import select
	from threading import Condition, Lock, Thread

	DEFAULT_TIMEOUT = 1

	class TransactionError(Exception):
	def __str__(self):
	return self.args[0]

	@property
	def msg(self):
	return self.args[1]

	class ConnectionClosed(Exception):
	pass

	class Connection(Thread):
	def __init__(self, sock):
	Thread.__init__(self)
	self.sock = sock
	self.logger = logging.getLogger("connection")
	self.rx = []
	self.rx_cv = Condition()
	self.tx_lock = Lock()
	self.next_xid = 1
	self.wakeup_rd, self.wakeup_wr = os.pipe()
	self.finished = False
	self.read_buffer = None

	def start(self):
	while not self.finished:
	try:
	rd, wr, err = select.select([self.sock, self.wakeup_rd], [], [])
	except select.error:
	print 'SELECT ERROR!!!'
	if self.sock in rd:
	try:
	self.process_read()
	except ConnectionClosed:
	self.logger.info("Connection to controller was dropped")
	self.finished = True
	if self.wakeup_rd in rd:
	os.read(self.wakeup_rd, 1)
	self.logger.debug("Exited event loop")

	def process_read(self):
	recvd = self.sock.recv(4096)
	if (len(recvd)) == 0:
	# this indicates that the other end hang up
	raise ConnectionClosed()

	self.logger.debug("Received %d bytes", len(recvd))

	buf = self.read_buffer
	if buf:
	buf += recvd
	else:
	buf = recvd

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

	# Parse the header to get type
	hdr_version, hdr_type, hdr_msglen, hdr_xid = loxi.of14.message.parse_header(buf[offset:])

	# Use loxi to resolve ofp of matching version
	ofp = loxi.protocol(hdr_version)

	# Extract the raw message bytes
	if (offset + hdr_msglen) > len(buf):
	# Not enough data for the body
	break
	rawmsg = buf[offset : offset + hdr_msglen]
	offset += hdr_msglen

	msg = ofp.message.parse_message(rawmsg)
	if not msg:
	self.logger.warn("Could not parse message")
	continue

	self.logger.debug("Received message %s.%s xid %d length %d",
	type(msg).__module__, type(msg).__name__, hdr_xid, hdr_msglen)

	with self.rx_cv:
	self.rx.append(msg)
	self.rx_cv.notify_all()

	if offset == len(buf):
	self.read_buffer = None
	else:
	self.read_buffer = buf[offset:]
	self.logger.debug("%d bytes remaining", len(self.read_buffer))

	def recv(self, predicate, timeout=DEFAULT_TIMEOUT):
	"""
	Remove and return the first message in the RX queue for
	which 'predicate' returns true
	"""
	assert self.is_alive()

	deadline = time.time() + timeout
	while True:
	with self.rx_cv:
	for i, msg in enumerate(self.rx):
	if predicate(msg):
	return self.rx.pop(i)

	now = time.time()
	if now > deadline:
	return None
	else:
	self.rx_cv.wait(deadline - now)

	def recv_any(self, timeout=DEFAULT_TIMEOUT):
	"""
	Return the first message in the RX queue
	"""
	return self.recv(lambda msg: True, timeout)

	def recv_xid(self, xid, timeout=DEFAULT_TIMEOUT):
	"""
	Return the first message in the RX queue with XID 'xid'
	"""
	return self.recv(lambda msg: msg.xid == xid, timeout)

	def recv_class(self, klass, timeout=DEFAULT_TIMEOUT):
	"""
	Return the first message in the RX queue which is an instance of 'klass'
	"""
	return self.recv(lambda msg: isinstance(msg, klass), timeout)

	def send_raw(self, buf):
	"""
	Send raw bytes on the socket
	"""
	assert self.is_alive()
	self.logger.debug("Sending raw message length %d", len(buf))
	with self.tx_lock:
	if self.sock.sendall(buf) is not None:
	raise RuntimeError("failed to send message to switch")

	def send(self, msg):
	"""
	Send a message
	"""
	assert self.is_alive()

	if msg.xid is None:
	msg.xid = self._gen_xid()
	buf = msg.pack()
	self.logger.debug("Sending message %s.%s xid %d length %d",
	type(msg).__module__, type(msg).__name__, msg.xid, len(buf))
	with self.tx_lock:
	if self.sock.sendall(buf) is not None:
	raise RuntimeError("failed to send message to switch")

	def transact(self, msg, timeout=DEFAULT_TIMEOUT):
	"""
	Send a message and return the reply
	"""
	self.send(msg)
	reply = self.recv_xid(msg.xid, timeout)
	if reply is None:
	raise TransactionError("no reply for %s" % type(msg).__name__, None)
	elif isinstance(reply, loxi.protocol(reply.version).message.error_msg):
	raise TransactionError("received %s in response to %s" % (type(reply).__name__, type(msg).__name__), reply)
	return reply

	def transact_multipart_generator(self, msg, timeout=DEFAULT_TIMEOUT):
	"""
	Send a multipart request and yield each entry from the replies
	"""
	self.send(msg)
	finished = False
	while not finished:
	reply = self.recv_xid(msg.xid, timeout)
	if reply is None:
	raise TransactionError("no reply for %s" % type(msg).__name__, None)
	elif not isinstance(reply, loxi.protocol(reply.version).message.stats_reply):
	raise TransactionError("received %s in response to %s" % (type(reply).__name__, type(msg).__name__), reply)
	for entry in reply.entries:
	yield entry
	finished = reply.flags & loxi.protocol(reply.version).OFPSF_REPLY_MORE == 0

	def transact_multipart(self, msg, timeout=DEFAULT_TIMEOUT):
	"""
	Send a multipart request and return all entries from the replies
	"""
	entries = []
	for entry in self.transact_multipart_generator(msg, timeout):
	entries.append(entry)
	return entries

	def stop(self):
	"""
	Signal the thread to exit and wait for it
	"""
	assert not self.finished
	self.logger.debug("Stopping connection")
	self.finished = True
	os.write(self.wakeup_wr, "x")
	self.join()
	self.sock.close()
	os.close(self.wakeup_rd)
	os.close(self.wakeup_wr)
	self.logger.debug("Stopped connection")

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

	def connect(ip, port=6653, daemon=True, ofp=loxi.of14):
	"""
	Actively connect to a switch
	"""
	soc = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
	soc.connect((ip, port))
	soc.setsockopt(socket.IPPROTO_TCP, socket.TCP_NODELAY, True)
	cxn = Connection(soc)
	cxn.daemon = daemon
	cxn.logger.debug("Connected to %s:%d", ip, port)
	cxn.start()

	cxn.send(ofp.message.hello())
	if not cxn.recv(lambda msg: msg.type == ofp.OFPT_HELLO):
	raise Exception("Did not receive HELLO")

	return cxn