py_gen/templates/message.py - onos-loxi - Gitiles

 :: # Copyright 2013, Big Switch Networks, Inc.
 :: #
 :: # LoxiGen is licensed under the Eclipse Public License, version 1.0 (EPL), with
 :: # the following special exception:
 :: #
 :: # LOXI Exception
 :: #
 :: # As a special exception to the terms of the EPL, you may distribute libraries
 :: # generated by LoxiGen (LoxiGen Libraries) under the terms of your choice, provided
 :: # that copyright and licensing notices generated by LoxiGen are not altered or removed
 :: # from the LoxiGen Libraries and the notice provided below is (i) included in
 :: # the LoxiGen Libraries, if distributed in source code form and (ii) included in any
 :: # documentation for the LoxiGen Libraries, if distributed in binary form.
 :: #
 :: # Notice: "Copyright 2013, Big Switch Networks, Inc. This library was generated by the LoxiGen Compiler."
 :: #
 :: # You may not use this file except in compliance with the EPL or LOXI Exception. You may obtain
 :: # a copy of the EPL at:
 :: #
 :: # http::: #www.eclipse.org/legal/epl-v10.html
 :: #
 :: # 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
 :: # EPL for the specific language governing permissions and limitations
 :: # under the EPL.
 ::
 :: import itertools
 :: include('_copyright.py')

 :: include('_autogen.py')

 import struct
 import loxi
 import const
 import common
 import action # for unpack_list
 import util

 class Message(object):
     version = const.OFP_VERSION
     type = None # override in subclass
     xid = None

 :: for ofclass in ofclasses:
 :: nonskip_members = [m for m in ofclass.members if not m.skip]
 class ${ofclass.pyname}(Message):
 :: for m in ofclass.type_members:
     ${m.name} = ${m.value}
 :: #endfor

     def __init__(self, ${', '.join(["%s=None" % m.name for m in nonskip_members])}):
         self.xid = xid
 :: for m in [x for x in nonskip_members if x.name != 'xid']:
         if ${m.name} != None:
             self.${m.name} = ${m.name}
         else:
             self.${m.name} = ${m.oftype.gen_init_expr()}
 :: #endfor

     def pack(self):
         packed = []
 :: if ofclass.name == 'of_packet_out':
 :: include('_pack_packet_out.py', ofclass=ofclass)
 :: else:
 :: include('_pack.py', ofclass=ofclass)
 :: #endif
         return ''.join(packed)

     @staticmethod
     def unpack(buf):
         if len(buf) < 8: raise loxi.ProtocolError("buffer too short to contain an OpenFlow message")
         obj = ${ofclass.pyname}()
 :: if ofclass.name == 'of_packet_out':
 :: include('_unpack_packet_out.py', ofclass=ofclass)
 :: else:
 :: include('_unpack.py', ofclass=ofclass)
 :: #endif
         return obj

     def __eq__(self, other):
         if type(self) != type(other): return False
         if self.version != other.version: return False
         if self.type != other.type: return False
 :: for m in nonskip_members:
         if self.${m.name} != other.${m.name}: return False
 :: #endfor
         return True

     def __ne__(self, other):
         return not self.__eq__(other)

     def __str__(self):
         return self.show()

     def show(self):
         import loxi.pp
         return loxi.pp.pp(self)

     def pretty_print(self, q):
 :: include('_pretty_print.py', ofclass=ofclass)

 :: #endfor

 def parse_header(buf):
     if len(buf) < 8:
         raise loxi.ProtocolError("too short to be an OpenFlow message")
     return struct.unpack_from("!BBHL", buf)

 def parse_message(buf):
     msg_ver, msg_type, msg_len, msg_xid = parse_header(buf)
     if msg_ver != const.OFP_VERSION and msg_type != ofp.OFPT_HELLO:
         raise loxi.ProtocolError("wrong OpenFlow version")
     if len(buf) != msg_len:
         raise loxi.ProtocolError("incorrect message size")
     if msg_type in parsers:
         return parsers[msg_type](buf)
     else:
         raise loxi.ProtocolError("unexpected message type")

 :: # TODO fix for OF 1.1+
 def parse_flow_mod(buf):
     if len(buf) < 56 + 2:
         raise loxi.ProtocolError("message too short")
     cmd, = struct.unpack_from("!H", buf, 56)
     if cmd in flow_mod_parsers:
         return flow_mod_parsers[cmd](buf)
     else:
         raise loxi.ProtocolError("unexpected flow mod cmd %u" % cmd)

 def parse_stats_reply(buf):
     if len(buf) < 8 + 2:
         raise loxi.ProtocolError("message too short")
     stats_type, = struct.unpack_from("!H", buf, 8)
     if stats_type in stats_reply_parsers:
         return stats_reply_parsers[stats_type](buf)
     else:
         raise loxi.ProtocolError("unexpected stats type %u" % stats_type)

 def parse_stats_request(buf):
     if len(buf) < 8 + 2:
         raise loxi.ProtocolError("message too short")
     stats_type, = struct.unpack_from("!H", buf, 8)
     if stats_type in stats_request_parsers:
         return stats_request_parsers[stats_type](buf)
     else:
         raise loxi.ProtocolError("unexpected stats type %u" % stats_type)

 def parse_vendor(buf):
     if len(buf) < 16:
         raise loxi.ProtocolError("experimenter message too short")

     experimenter, = struct.unpack_from("!L", buf, 8)
     if experimenter == 0x005c16c7: # Big Switch Networks
         subtype, = struct.unpack_from("!L", buf, 12)
     elif experimenter == 0x00002320: # Nicira
         subtype, = struct.unpack_from("!L", buf, 12)
     else:
         raise loxi.ProtocolError("unexpected experimenter id %#x" % experimenter)

     if subtype in experimenter_parsers[experimenter]:
         return experimenter_parsers[experimenter][subtype](buf)
     else:
         raise loxi.ProtocolError("unexpected experimenter %#x subtype %#x" % (experimenter, subtype))

 parsers = {
 :: sort_key = lambda x: x.type_members[1].value
 :: msgtype_groups = itertools.groupby(sorted(ofclasses, key=sort_key), sort_key)
 :: for (k, v) in msgtype_groups:
 :: v = list(v)
 :: if len(v) == 1:
     ${k} : ${v[0].pyname}.unpack,
 :: else:
     ${k} : parse_${k[11:].lower()},
 :: #endif
 :: #endfor
 }

 flow_mod_parsers = {
     const.OFPFC_ADD : flow_add.unpack,
     const.OFPFC_MODIFY : flow_modify.unpack,
     const.OFPFC_MODIFY_STRICT : flow_modify_strict.unpack,
     const.OFPFC_DELETE : flow_delete.unpack,
     const.OFPFC_DELETE_STRICT : flow_delete_strict.unpack,
 }

 stats_reply_parsers = {
     const.OFPST_DESC : desc_stats_reply.unpack,
     const.OFPST_FLOW : flow_stats_reply.unpack,
     const.OFPST_AGGREGATE : aggregate_stats_reply.unpack,
     const.OFPST_TABLE : table_stats_reply.unpack,
     const.OFPST_PORT : port_stats_reply.unpack,
     const.OFPST_QUEUE : queue_stats_reply.unpack,
     const.OFPST_VENDOR : experimenter_stats_reply.unpack,
 }

 stats_request_parsers = {
     const.OFPST_DESC : desc_stats_request.unpack,
     const.OFPST_FLOW : flow_stats_request.unpack,
     const.OFPST_AGGREGATE : aggregate_stats_request.unpack,
     const.OFPST_TABLE : table_stats_request.unpack,
     const.OFPST_PORT : port_stats_request.unpack,
     const.OFPST_QUEUE : queue_stats_request.unpack,
     const.OFPST_VENDOR : experimenter_stats_request.unpack,
 }

 :: experimenter_ofclasses = [x for x in ofclasses if x.type_members[1].value == 'const.OFPT_VENDOR']
 :: sort_key = lambda x: x.type_members[2].value
 :: experimenter_ofclasses.sort(key=sort_key)
 :: grouped = itertools.groupby(experimenter_ofclasses, sort_key)
 experimenter_parsers = {
 :: for (experimenter, v) in grouped:
     ${experimenter} : {
 :: for ofclass in v:
         ${ofclass.type_members[3].value}: ${ofclass.pyname}.unpack,
 :: #endfor
     },
 :: #endfor
 }
	:: # Copyright 2013, Big Switch Networks, Inc.
	:: #
	:: # LoxiGen is licensed under the Eclipse Public License, version 1.0 (EPL), with
	:: # the following special exception:
	:: #
	:: # LOXI Exception
	:: #
	:: # As a special exception to the terms of the EPL, you may distribute libraries
	:: # generated by LoxiGen (LoxiGen Libraries) under the terms of your choice, provided
	:: # that copyright and licensing notices generated by LoxiGen are not altered or removed
	:: # from the LoxiGen Libraries and the notice provided below is (i) included in
	:: # the LoxiGen Libraries, if distributed in source code form and (ii) included in any
	:: # documentation for the LoxiGen Libraries, if distributed in binary form.
	:: #
	:: # Notice: "Copyright 2013, Big Switch Networks, Inc. This library was generated by the LoxiGen Compiler."
	:: #
	:: # You may not use this file except in compliance with the EPL or LOXI Exception. You may obtain
	:: # a copy of the EPL at:
	:: #
	:: # http::: #www.eclipse.org/legal/epl-v10.html
	:: #
	:: # 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
	:: # EPL for the specific language governing permissions and limitations
	:: # under the EPL.
	::
	:: import itertools
	:: include('_copyright.py')

	:: include('_autogen.py')

	import struct
	import loxi
	import const
	import common
	import action # for unpack_list
	import util

	class Message(object):
	version = const.OFP_VERSION
	type = None # override in subclass
	xid = None

	:: for ofclass in ofclasses:
	:: nonskip_members = [m for m in ofclass.members if not m.skip]
	class ${ofclass.pyname}(Message):
	:: for m in ofclass.type_members:
	${m.name} = ${m.value}
	:: #endfor

	def __init__(self, ${', '.join(["%s=None" % m.name for m in nonskip_members])}):
	self.xid = xid
	:: for m in [x for x in nonskip_members if x.name != 'xid']:
	if ${m.name} != None:
	self.${m.name} = ${m.name}
	else:
	self.${m.name} = ${m.oftype.gen_init_expr()}
	:: #endfor

	def pack(self):
	packed = []
	:: if ofclass.name == 'of_packet_out':
	:: include('_pack_packet_out.py', ofclass=ofclass)
	:: else:
	:: include('_pack.py', ofclass=ofclass)
	:: #endif
	return ''.join(packed)

	@staticmethod
	def unpack(buf):
	if len(buf) < 8: raise loxi.ProtocolError("buffer too short to contain an OpenFlow message")
	obj = ${ofclass.pyname}()
	:: if ofclass.name == 'of_packet_out':
	:: include('_unpack_packet_out.py', ofclass=ofclass)
	:: else:
	:: include('_unpack.py', ofclass=ofclass)
	:: #endif
	return obj

	def __eq__(self, other):
	if type(self) != type(other): return False
	if self.version != other.version: return False
	if self.type != other.type: return False
	:: for m in nonskip_members:
	if self.${m.name} != other.${m.name}: return False
	:: #endfor
	return True

	def __ne__(self, other):
	return not self.__eq__(other)

	def __str__(self):
	return self.show()

	def show(self):
	import loxi.pp
	return loxi.pp.pp(self)

	def pretty_print(self, q):
	:: include('_pretty_print.py', ofclass=ofclass)

	:: #endfor

	def parse_header(buf):
	if len(buf) < 8:
	raise loxi.ProtocolError("too short to be an OpenFlow message")
	return struct.unpack_from("!BBHL", buf)

	def parse_message(buf):
	msg_ver, msg_type, msg_len, msg_xid = parse_header(buf)
	if msg_ver != const.OFP_VERSION and msg_type != ofp.OFPT_HELLO:
	raise loxi.ProtocolError("wrong OpenFlow version")
	if len(buf) != msg_len:
	raise loxi.ProtocolError("incorrect message size")
	if msg_type in parsers:
	return parsers[msg_type](buf)
	else:
	raise loxi.ProtocolError("unexpected message type")

	:: # TODO fix for OF 1.1+
	def parse_flow_mod(buf):
	if len(buf) < 56 + 2:
	raise loxi.ProtocolError("message too short")
	cmd, = struct.unpack_from("!H", buf, 56)
	if cmd in flow_mod_parsers:
	return flow_mod_parsers[cmd](buf)
	else:
	raise loxi.ProtocolError("unexpected flow mod cmd %u" % cmd)

	def parse_stats_reply(buf):
	if len(buf) < 8 + 2:
	raise loxi.ProtocolError("message too short")
	stats_type, = struct.unpack_from("!H", buf, 8)
	if stats_type in stats_reply_parsers:
	return stats_reply_parsers[stats_type](buf)
	else:
	raise loxi.ProtocolError("unexpected stats type %u" % stats_type)

	def parse_stats_request(buf):
	if len(buf) < 8 + 2:
	raise loxi.ProtocolError("message too short")
	stats_type, = struct.unpack_from("!H", buf, 8)
	if stats_type in stats_request_parsers:
	return stats_request_parsers[stats_type](buf)
	else:
	raise loxi.ProtocolError("unexpected stats type %u" % stats_type)

	def parse_vendor(buf):
	if len(buf) < 16:
	raise loxi.ProtocolError("experimenter message too short")

	experimenter, = struct.unpack_from("!L", buf, 8)
	if experimenter == 0x005c16c7: # Big Switch Networks
	subtype, = struct.unpack_from("!L", buf, 12)
	elif experimenter == 0x00002320: # Nicira
	subtype, = struct.unpack_from("!L", buf, 12)
	else:
	raise loxi.ProtocolError("unexpected experimenter id %#x" % experimenter)

	if subtype in experimenter_parsers[experimenter]:
	return experimenter_parsers[experimenter][subtype](buf)
	else:
	raise loxi.ProtocolError("unexpected experimenter %#x subtype %#x" % (experimenter, subtype))

	parsers = {
	:: sort_key = lambda x: x.type_members[1].value
	:: msgtype_groups = itertools.groupby(sorted(ofclasses, key=sort_key), sort_key)
	:: for (k, v) in msgtype_groups:
	:: v = list(v)
	:: if len(v) == 1:
	${k} : ${v[0].pyname}.unpack,
	:: else:
	${k} : parse_${k[11:].lower()},
	:: #endif
	:: #endfor
	}

	flow_mod_parsers = {
	const.OFPFC_ADD : flow_add.unpack,
	const.OFPFC_MODIFY : flow_modify.unpack,
	const.OFPFC_MODIFY_STRICT : flow_modify_strict.unpack,
	const.OFPFC_DELETE : flow_delete.unpack,
	const.OFPFC_DELETE_STRICT : flow_delete_strict.unpack,
	}

	stats_reply_parsers = {
	const.OFPST_DESC : desc_stats_reply.unpack,
	const.OFPST_FLOW : flow_stats_reply.unpack,
	const.OFPST_AGGREGATE : aggregate_stats_reply.unpack,
	const.OFPST_TABLE : table_stats_reply.unpack,
	const.OFPST_PORT : port_stats_reply.unpack,
	const.OFPST_QUEUE : queue_stats_reply.unpack,
	const.OFPST_VENDOR : experimenter_stats_reply.unpack,
	}

	stats_request_parsers = {
	const.OFPST_DESC : desc_stats_request.unpack,
	const.OFPST_FLOW : flow_stats_request.unpack,
	const.OFPST_AGGREGATE : aggregate_stats_request.unpack,
	const.OFPST_TABLE : table_stats_request.unpack,
	const.OFPST_PORT : port_stats_request.unpack,
	const.OFPST_QUEUE : queue_stats_request.unpack,
	const.OFPST_VENDOR : experimenter_stats_request.unpack,
	}

	:: experimenter_ofclasses = [x for x in ofclasses if x.type_members[1].value == 'const.OFPT_VENDOR']
	:: sort_key = lambda x: x.type_members[2].value
	:: experimenter_ofclasses.sort(key=sort_key)
	:: grouped = itertools.groupby(experimenter_ofclasses, sort_key)
	experimenter_parsers = {
	:: for (experimenter, v) in grouped:
	${experimenter} : {
	:: for ofclass in v:
	${ofclass.type_members[3].value}: ${ofclass.pyname}.unpack,
	:: #endfor
	},
	:: #endfor
	}