def tcp_udp_flows(self, vlan_id, nfvip, eth_type, nat_flows):
return (
# Learn from coprocessor port/do inbound translation.
(self.FROM_COPRO_TABLE,
parser.OFPMatch(eth_type=eth_type,
vlan_vid=vlan_id), nat_flows(nfvip)),
# Packets from coprocessor go to tuple inbound table.
(self.INTF_TABLE,
parser.OFPMatch(eth_type=eth_type,
ip_proto=socket.IPPROTO_TCP,
in_port=COPROPORT,
vlan_vid=vlan_id),
[parser.OFPInstructionGotoTable(self.FROM_COPRO_TABLE)]),
(self.INTF_TABLE,
parser.OFPMatch(eth_type=eth_type,
ip_proto=socket.IPPROTO_UDP,
in_port=COPROPORT,
vlan_vid=vlan_id),
[parser.OFPInstructionGotoTable(self.FROM_COPRO_TABLE)]),
# Packets from fake interface go outbound table.
(self.INTF_TABLE,
parser.OFPMatch(eth_type=eth_type,
ip_proto=socket.IPPROTO_TCP,
in_port=FAKEPORT,
vlan_vid=vlan_id),
[parser.OFPInstructionGotoTable(self.TO_COPRO_TABLE)]),
(self.INTF_TABLE,
parser.OFPMatch(eth_type=eth_type,
ip_proto=socket.IPPROTO_UDP,
in_port=FAKEPORT,
vlan_vid=vlan_id),
[parser.OFPInstructionGotoTable(self.TO_COPRO_TABLE)]))
def add_routes(self, datapath, local_port, mac):
""" Add the routes to all switches when a new mac is learned """
# Add the route to the switch the device is connected to
local_route = parser.OFPFlowMod(
datapath=datapath,
table_id=0,
priority=20,
cookie=3,
command=ofproto.OFPFC_ADD,
match=parser.OFPMatch(eth_dst=mac),
instructions=[
parser.OFPInstructionGotoTable(1),
parser.OFPInstructionActions(
type_=ofproto.OFPIT_WRITE_ACTIONS,
actions=[parser.OFPActionOutput(local_port)])
])
datapath.send_msg(local_route)
# Now add routes to all other switches that can get there
bfs = self.breadth_first_search(datapath.id)
for dpid, port in bfs.iteritems():
dp = self.switches[dpid]
foreign_route = parser.OFPFlowMod(
datapath=dp,
table_id=0,
priority=10,
cookie=3,
command=ofproto.OFPFC_ADD,
match=parser.OFPMatch(eth_dst=mac),
instructions=[
parser.OFPInstructionGotoTable(1),
parser.OFPInstructionActions(
type_=ofproto.OFPIT_WRITE_ACTIONS,
actions=[parser.OFPActionOutput(port)])
])
dp.send_msg(foreign_route)
# Add the route to table 1 so we don't get messages about
# this mac address anymore
for dp in self.switches.values():
block_route = parser.OFPFlowMod(datapath=dp,
table_id=1,
priority=20,
cookie=3,
command=ofproto.OFPFC_ADD,
match=parser.OFPMatch(eth_src=mac),
instructions=[])
dp.send_msg(block_route)
def test_flow_stats(self):
"""Check the update method in the GaugeFlowStatsLogger class"""
# add an ofproto attribute to the datapath
datapath = create_mock_datapath(0)
ofp_attr = {'ofproto': ofproto}
datapath.configure_mock(**ofp_attr)
# add the datapath as an attribute to the config
dp_attr = {'dp': datapath}
self.conf.configure_mock(**dp_attr)
logger = watcher.GaugeFlowTableLogger(self.conf, '__name__',
mock.Mock())
logger._running = True
instructions = [parser.OFPInstructionGotoTable(1)]
msg = flow_stats_msg(datapath, instructions)
rcv_time = time.time()
rcv_time_str = logger._rcv_time(rcv_time)
logger.update(rcv_time, msg)
log_str = self.get_file_contents("{}--flowtable--{}.json".format(
datapath.name, rcv_time_str))
yaml_dict = yaml.safe_load(
log_str)['OFPFlowStatsReply']['body'][0]['OFPFlowStats']
compare_flow_msg(msg, yaml_dict, self)
def test_flow_stats(self):
"""Check the update method in the GaugeFlowStatsLogger class"""
#add an ofproto attribute to the datapath
datapath = create_mock_datapath(0)
ofp_attr = {'ofproto': ofproto}
datapath.configure_mock(**ofp_attr)
#add the datapath as an attribute to the config
dp_attr = {'dp' : datapath}
self.conf.configure_mock(**dp_attr)
logger = watcher.GaugeFlowTableLogger(self.conf, '__name__', mock.Mock())
instructions = [parser.OFPInstructionGotoTable(1)]
msg = flow_stats_msg(datapath, instructions)
logger.update(time.time(), datapath.dp_id, msg)
log_str = self.get_file_contents()
#only parse the message part of the log text
str_to_find = "msg: "
index = log_str.find(str_to_find)
#discard the start of the log text
log_str = log_str[index + len(str_to_find):]
json_dict = json.loads(log_str)['OFPFlowStatsReply']['body'][0]['OFPFlowStats']
compare_flow_msg(msg, json_dict, self)
def ipv4_flows(self, vlan_id, nfvip):
return (
# Program OVS to respond to ARP on fake port.
(self.TO_COPRO_TABLE, parser.OFPMatch(eth_type=ether.ETH_TYPE_ARP, vlan_vid=vlan_id),
self.arp_reply_actions()),
(self.INTF_TABLE, parser.OFPMatch(
eth_type=ether.ETH_TYPE_ARP, eth_src=self.FAKESERVERMAC, in_port=self.FAKEPORT, arp_op=arp.ARP_REQUEST, vlan_vid=vlan_id),
[parser.OFPInstructionGotoTable(self.TO_COPRO_TABLE)])) + self.tcp_udp_flows(vlan_id, nfvip, ether.ETH_TYPE_IP, self.natv4_flows)
def goto_table_id(table_id):
"""Return instruction to goto table by table ID.
Args:
table (int): table by ID to goto.
Returns:
ryu.ofproto.ofproto_v1_3_parser.OFPInstruction: goto instruction.
"""
return parser.OFPInstructionGotoTable(table_id)
def goto_table(table):
"""Return instruction to goto table.
Args:
table (ValveTable): table to goto.
Returns:
ryu.ofproto.ofproto_v1_3_parser.OFPInstruction: goto instruction.
"""
return parser.OFPInstructionGotoTable(table.table_id)
def metadata_goto_table(metadata, mask, table):
"""Return instructions to write metadata and goto table.
Args:
metadata (int): metadata to write to packet
maks (int): mask to apply to metadata
table (ValveTable): table to goto.
Returns:
list of OFPInstructions"""
return [
parser.OFPInstructionWriteMetadata(metadata, mask),
parser.OFPInstructionGotoTable(table.table_id)
]
def add_tcp_table(self, datapath):
ofproto = datapath.ofproto
parser = datapath.ofproto_parser
inst = [parser.OFPInstructionGotoTable(1)]
match = parser.OFPMatch()
mod = parser.OFPFlowMod(datapath=datapath,
table_id=0,
priority=0,
match=match,
idle_timeout=0,
hard_timeout=0,
instructions=inst)
datapath.send_msg(mod)
self.Flowcounter[datapath.id] += 1
def test_flow_stats(self):
"""Check the update method of the GaugeFlowTableInfluxDBLogger class"""
conf = self.create_config_obj(create_mock_datapath(0))
db_logger = gauge_influx.GaugeFlowTableInfluxDBLogger(
conf, '__name__', mock.Mock())
db_logger._running = True
rcv_time = int(time.time())
instructions = [parser.OFPInstructionGotoTable(1)]
msg = flow_stats_msg(conf.dp, instructions)
db_logger.update(rcv_time, msg)
other_fields = {
'dp_name': conf.dp.name,
'dp_id': hex(conf.dp.dp_id),
'timestamp': rcv_time,
'priority': msg.body[0].priority,
'table_id': msg.body[0].table_id,
'inst_count': len(msg.body[0].instructions),
'vlan': msg.body[0].match.get('vlan_vid') ^ ofproto.OFPVID_PRESENT,
'cookie': msg.body[0].cookie,
}
with open(self.server.output_file, 'r') as log:
output = log.readlines()
for line in output:
measurement, influx_data = self.parse_influx_output(line)
for stat_name, stat_val in influx_data.items():
if stat_name == 'value':
if measurement == 'flow_packet_count':
self.assertEqual(msg.body[0].packet_count, stat_val)
elif measurement == 'flow_byte_count':
self.assertEqual(msg.body[0].byte_count, stat_val)
else:
self.fail("Unknown measurement")
elif stat_name in other_fields:
self.assertEqual(other_fields[stat_name], stat_val)
elif stat_name in msg.body[0].match:
self.assertEqual(msg.body[0].match.get(stat_name),
stat_val)
else:
self.fail("Unknown key: {} and value: {}".format(
stat_name, stat_val))
def test_flow_stats(self):
"""Check the update method of the GaugeFlowTableInfluxDBLogger class"""
conf = self.create_config_obj(create_mock_datapath(0))
db_logger = gauge_influx.GaugeFlowTableInfluxDBLogger(
conf, '__name__', mock.Mock())
rcv_time = int(time.time())
matches = self.generate_all_matches()
instructions = [parser.OFPInstructionGotoTable(1)]
flow_stats = [
parser.OFPFlowStats(0, 0, 0, 1, 0, 0, 0, 0, 1, 1, matches,
instructions)
]
message = parser.OFPFlowStatsReply(conf.dp, body=flow_stats)
db_logger.update(rcv_time, conf.dp.id, message)
other_fields = {
'dp_name': conf.dp.name,
'timestamp': rcv_time,
'priority': flow_stats[0].priority,
'table_id': flow_stats[0].table_id,
'inst_count': len(flow_stats[0].instructions),
'vlan': matches.get('vlan_vid') ^ ofproto.OFPVID_PRESENT
}
self.server.output_file.seek(0)
for line in self.server.output_file.readlines():
measurement, influx_data = self.parse_influx_output(line)
for stat_name, stat_val in influx_data.items():
if stat_name == 'value':
if measurement == 'flow_packet_count':
self.assertEqual(flow_stats[0].packet_count, stat_val)
elif measurement == 'flow_byte_count':
self.assertEqual(flow_stats[0].byte_count, stat_val)
else:
self.fail("Unknown measurement")
elif stat_name in other_fields:
self.assertEqual(other_fields[stat_name], stat_val)
elif stat_name in matches:
self.assertEqual(matches.get(stat_name), stat_val)
else:
self.fail("Unknown key: {} and value: {}".format(
stat_name, stat_val))
def test_flow_stats(self):
"""Check the update method of the GaugeFlowTablePrometheusPoller class"""
datapath = create_mock_datapath(2)
conf = mock.Mock(dp=datapath,
type='',
interval=1,
prometheus_port=9303,
prometheus_addr='localhost',
use_test_thread=True)
prom_poller = gauge_prom.GaugeFlowTablePrometheusPoller(
conf, '__name__', self.prom_client)
rcv_time = int(time.time())
instructions = [parser.OFPInstructionGotoTable(1)]
msg = flow_stats_msg(conf.dp, instructions)
prom_poller.update(rcv_time, conf.dp.dp_id, msg)
def test_update(self):
"""Compares the data writtten to the CouchDB server and the original flow message"""
db_logger = gauge_nsodbc.GaugeFlowTableDBLogger(self.conf, '__name__', mock.Mock())
rcv_time = int(time.time())
instructions = [parser.OFPInstructionGotoTable(1)]
msg = flow_stats_msg(self.conf.dp, instructions)
db_logger.update(rcv_time, self.conf.dp.dp_id, msg)
for doc in self.server.docs:
if doc.startswith(self.conf.flows_doc) and '_design' not in doc:
flow_doc = self.server.docs[doc]
elif doc.startswith(self.conf.switches_doc) and '_design' not in doc:
switch_doc = self.server.docs[doc]
self.assertEqual(switch_doc['data']['flows'][0], flow_doc['_id'])
flow_doc = flow_doc['data']['OFPFlowStats']
compare_flow_msg(msg, flow_doc, self)
def _send_flow_mod(self, obj):
inst_type = False
table_id = 0
flow_mod = obj.get("OFPFlowMod")
datapath = self.dpstore.get(flow_mod.get("datapath_id"))
datapath = datapath.get("dp_obj")
instructions = flow_mod.get("instructions")
# FIXME: put this in a instruction parser
for instruction in instructions:
if "OFPInstructionActions" in instruction:
inst_type = "OFPInstructionActions"
actions = self._parse_action(
instruction.get("OFPInstructionActions").get("actions"))
if "OFPInstructionGotoTable" in instruction:
inst_type = "OFPInstructionGotoTable"
table_id = instruction.get("OFPInstructionGotoTable").get(
"table_id")
goto = ofproto_v1_3_parser.OFPInstructionGotoTable(table_id)
match = flow_mod.get("match")
match = self._pars_match(match)
if inst_type == "OFPInstructionActions":
inst = [
ofproto_v1_3_parser.OFPInstructionActions(
ofproto_v1_3.OFPIT_APPLY_ACTIONS, actions)
]
if inst_type == "OFPInstructionGotoTable":
inst = [goto]
if int(flow_mod.get("table_id")) >= 0:
table_id = int(flow_mod.get("table_id"))
mod = ofproto_v1_3_parser.OFPFlowMod(datapath=datapath,
priority=int(
flow_mod.get("priority")),
match=match,
instructions=inst,
table_id=table_id)
datapath.send_msg(mod)
def test_flow_stats(self):
"""Check the update method in the GaugeFlowStatsLogger class"""
#add an ofproto attribute to the datapath
datapath = create_mock_datapath(0)
ofp_attr = {'ofproto': ofproto}
datapath.configure_mock(**ofp_attr)
#add the datapath as an attribute to the config
dp_attr = {'dp' : datapath}
self.conf.configure_mock(**dp_attr)
logger = watcher.GaugeFlowTableLogger(self.conf, '__name__', mock.Mock())
instructions = [parser.OFPInstructionGotoTable(1)]
msg = flow_stats_msg(datapath, instructions)
logger.update(time.time(), datapath.dp_id, msg)
log_str = self.get_file_contents()
yaml_dict = yaml.load(log_str)['msg']['OFPFlowStatsReply']['body'][0]['OFPFlowStats']
compare_flow_msg(msg, yaml_dict, self)
def instructions_to_ryu(instructions, rule):
""" Converts Instructions to a list of ryu instructions
This returns both a instruction list and any extra messages that
are required to install the instructions such as group mod messages.
Currently this is not smart about reusing groups.
instructions: A Instructions object
rule: A Rule
return: A tuple ([instructions], [extra messages])
"""
ret = []
extra_messages = []
if instructions.goto_table is not None:
ret.append(parser.OFPInstructionGotoTable(instructions.goto_table))
if instructions.write_metadata is not None:
assert not "TODO"
if (instructions.write_actions is not None
and not instructions.write_actions.empty()):
actions, extra = actions_to_ryu(instructions.write_actions, rule)
ret.append(
parser.OFPInstructionActions(ofproto_v1_3.OFPIT_WRITE_ACTIONS,
actions))
extra_messages += extra
if (instructions.apply_actions is not None
and not instructions.apply_actions.empty()):
actions, extra = actions_to_ryu(instructions.apply_actions, rule)
ret.append(
parser.OFPInstructionActions(ofproto_v1_3.OFPIT_APPLY_ACTIONS,
actions))
extra_messages += extra
if instructions.clear_actions is True:
ret.append(
parser.OFPInstructionActions(ofproto_v1_3.OFPIT_CLEAR_ACTIONS))
if instructions.meter is not None:
assert not "TODO"
return (ret, extra_messages)
def install_transport_bad(self, datapath):
""" Set table 0 as stateful solo per usare GD, fa le somme del percorso """
req = osparser.OFPExpMsgConfigureStatefulTable(datapath=datapath,
table_id=0,
stateful=1)
datapath.send_msg(req)
""" Ci sta una table NULLA per i bug di OpenFLow con le Label MPLS """
""" Set table 2 as stateful, verifica le condizioni sul percorso <="""
req = osparser.OFPExpMsgConfigureStatefulTable(datapath=datapath,
table_id=2,
stateful=1)
datapath.send_msg(req)
""" Set table 3 as stateful """
req = osparser.OFPExpMsgConfigureStatefulTable(datapath=datapath,
table_id=3,
stateful=1)
datapath.send_msg(req)
############################### LOOKUP/UPDATE ################
""" Tab0 """
""" Non mi interessa """
req = osparser.OFPExpMsgKeyExtract(
datapath=datapath,
command=osproto.OFPSC_EXP_SET_L_EXTRACTOR,
fields=[ofproto.OXM_OF_ETH_SRC],
table_id=0)
datapath.send_msg(req)
""" Non mi interessa """
req = osparser.OFPExpMsgKeyExtract(
datapath=datapath,
command=osproto.OFPSC_EXP_SET_U_EXTRACTOR,
fields=[ofproto.OXM_OF_ETH_SRC],
table_id=0)
datapath.send_msg(req)
""" Tab2 """
""" Set lookup extractor = {MAC_SRC} """
req = osparser.OFPExpMsgKeyExtract(
datapath=datapath,
command=osproto.OFPSC_EXP_SET_L_EXTRACTOR,
fields=[ofproto.OXM_OF_ETH_SRC],
table_id=2)
datapath.send_msg(req)
""" Set update extractor = {MAC_SRC} """
req = osparser.OFPExpMsgKeyExtract(
datapath=datapath,
command=osproto.OFPSC_EXP_SET_U_EXTRACTOR,
fields=[ofproto.OXM_OF_ETH_SRC],
table_id=2)
datapath.send_msg(req)
""" Tab3 """
""" Set lookup extractor = {MAC_DST} """
req = osparser.OFPExpMsgKeyExtract(
datapath=datapath,
command=osproto.OFPSC_EXP_SET_L_EXTRACTOR,
fields=[ofproto.OXM_OF_ETH_DST],
table_id=3)
datapath.send_msg(req)
""" Set update extractor = {MAC_SRC} """
req = osparser.OFPExpMsgKeyExtract(
datapath=datapath,
command=osproto.OFPSC_EXP_SET_U_EXTRACTOR,
fields=[ofproto.OXM_OF_ETH_SRC],
table_id=3)
datapath.send_msg(req)
########################### SET HF GD DATA VARIABLE TAB 0 ############################################
''' HF[1] = OXM_OF_MPLS_TC [pesoArchi] '''
req = osparser.OFPExpMsgHeaderFieldExtract(
datapath=datapath,
table_id=0,
extractor_id=1,
field=ofproto.OXM_OF_MPLS_TC)
datapath.send_msg(req)
''' GD[0] = 0 '''
req = osparser.OFPExpMsgsSetGlobalDataVariable(
datapath=datapath, table_id=0, global_data_variable_id=0, value=0)
datapath.send_msg(req)
########################### SET HF GD DATA VARIABLE TAB 2 ############################################
''' HF[1] = OXM_OF_MPLS_TC [pesoArchi] '''
req = osparser.OFPExpMsgHeaderFieldExtract(
datapath=datapath,
table_id=2,
extractor_id=1,
field=ofproto.OXM_OF_MPLS_TC)
datapath.send_msg(req)
########################### SET CONDITION TAB 2 ############################################
# condition 3: MPLS_TC <= COSTO MEMORIZZATO (FD[0]) ?
# condition 3: HF[1] <= FD[0] ?
req = osparser.OFPExpMsgSetCondition(datapath=datapath,
table_id=2,
condition_id=0,
condition=osproto.CONDITION_LTE,
operand_1_hf_id=1,
operand_2_fd_id=0)
datapath.send_msg(req)
'''####################### TAB 0 '''
''' somma il costo del link di ingresso al valore memorizzato nel pacchetto mpls_tc + 1 '''
""" Riga 1 """
# GD[0] = HF[1] + 1 -> MPLS_TC + 1
# HF [1] = GD[0] -> MPLS_TC = GD[0]
# GOTO Tab 2
match = ofparser.OFPMatch(eth_type=0x8847)
actions = [
osparser.OFPExpActionSetDataVariable(table_id=0,
opcode=osproto.OPCODE_SUM,
output_gd_id=0,
operand_1_hf_id=1,
operand_2_cost=2),
osparser.OFPExpActionWriteContextToField(
src_type=osproto.SOURCE_TYPE_GLOBAL_DATA_VAR,
src_id=0,
dst_field=ofproto.OXM_OF_MPLS_TC)
]
inst = [
ofparser.OFPInstructionActions(ofproto.OFPIT_APPLY_ACTIONS,
actions),
ofparser.OFPInstructionGotoTable(1)
]
mod = ofparser.OFPFlowMod(datapath=datapath,
table_id=0,
priority=1198,
match=match,
instructions=inst)
datapath.send_msg(mod)
''' ####################### TAB 1 NULLA serve solo per i bug di OpenFlow, servono 2 stage xke le modifiche MPLS siano visibili'''
# Non fa niente, ci sta solo per risolvere bug (presunti) di OpenFlow
match = ofparser.OFPMatch(eth_type=0x8847)
actions = []
inst = [
ofparser.OFPInstructionActions(ofproto.OFPIT_APPLY_ACTIONS,
actions),
ofparser.OFPInstructionGotoTable(2)
]
mod = ofparser.OFPFlowMod(datapath=datapath,
table_id=1,
priority=0,
match=match,
instructions=inst)
datapath.send_msg(mod)
'''# ####################### TAB 2 '''
''' C[0] verifica se il costo memorizzato nel pacchetto e' <= di quello gia conosciuto (in pratica se il pacchetto ha fatto un percorso migliore) '''
""" Riga 1 """
# C[0]: MPLS_TC > COSTO MEMORIZZATO -> HF[1] > FD[0]
# MetaData: 1 -> Pacchetto duplicato
# azione DROP
match = ofparser.OFPMatch(state=1, eth_type=0x8847, condition0=0)
actions = [osparser.OFPExpActionSetState(state=1, table_id=2)]
self.add_flow(datapath=datapath,
table_id=2,
priority=198,
match=match,
actions=actions)
""" Riga 2 """
# C[0]: MPLS_TC <= COSTO MEMORIZZATO -> HF[1] <= FD[0]
# FD[0] = HF[1] -> COSTO MEMORIZZATO = MPLS_TC
# SetState(1)
# azione GOTO Tab 3
match = ofparser.OFPMatch(state=1, eth_type=0x8847, condition0=1)
actions = [
osparser.OFPExpActionSetState(state=1, table_id=2),
osparser.OFPExpActionSetDataVariable(table_id=2,
opcode=osproto.OPCODE_SUM,
output_fd_id=0,
operand_1_hf_id=1,
operand_2_cost=0)
]
inst = [
ofparser.OFPInstructionActions(ofproto.OFPIT_APPLY_ACTIONS,
actions),
ofparser.OFPInstructionGotoTable(3)
]
mod = ofparser.OFPFlowMod(datapath=datapath,
table_id=2,
priority=98,
match=match,
instructions=inst)
datapath.send_msg(mod)
""" Riga 3 """
# FD[0] = HF[1] -> COSTO MEMORIZZATO = MPLS_TC
# SetState(1)
# azione GOTO Tab 3
match = ofparser.OFPMatch(state=0, eth_type=0x8847)
actions = [
osparser.OFPExpActionSetState(state=1, table_id=2),
osparser.OFPExpActionSetDataVariable(table_id=2,
opcode=osproto.OPCODE_SUM,
output_fd_id=0,
operand_1_hf_id=1,
operand_2_cost=0)
]
inst = [
ofparser.OFPInstructionActions(ofproto.OFPIT_APPLY_ACTIONS,
actions),
ofparser.OFPInstructionGotoTable(3)
]
mod = ofparser.OFPFlowMod(datapath=datapath,
table_id=2,
priority=8,
match=match,
instructions=inst)
datapath.send_msg(mod)
'''# ####################### TAB 3 semplicemente MAC Learning '''
# for each input port, for each state
for i in range(1, N + 1):
for s in range(N + 1):
match = ofparser.OFPMatch(in_port=i, state=s)
if s == 0:
out_port = ofproto.OFPP_FLOOD
else:
out_port = s
# actions = [osparser.OFPExpActionSetState(state=i, table_id=3, hard_timeout=10),
actions = [
osparser.OFPExpActionSetState(state=i, table_id=3),
ofparser.OFPActionOutput(out_port)
]
self.add_flow(datapath=datapath,
table_id=3,
priority=0,
match=match,
actions=actions)
def switch_features_handler(self, event):
""" Switche sent his features, check if OpenState supported """
msg = event.msg
datapath = msg.datapath
LOG.info("Configuring switch %d..." % datapath.id)
""" Set table 0 as stateful """
req = bebaparser.OFPExpMsgConfigureStatefulTable(
datapath=datapath,
table_id=0,
stateful=1)
datapath.send_msg(req)
""" Set table 1 as stateful """
req = bebaparser.OFPExpMsgConfigureStatefulTable(
datapath=datapath,
table_id=1,
stateful=1)
datapath.send_msg(req)
############################### LOOKUP/UPDATE ################
""" Set lookup extractor = {eth_dst} """
req = bebaparser.OFPExpMsgKeyExtract(datapath=datapath,
command=bebaproto.OFPSC_EXP_SET_L_EXTRACTOR,
fields=[ofproto.OXM_OF_IPV4_SRC, ofproto.OXM_OF_IPV4_DST],
table_id=0,
biflow=1)
datapath.send_msg(req)
""" Set update extractor = {eth_src} """
req = bebaparser.OFPExpMsgKeyExtract(datapath=datapath,
command=bebaproto.OFPSC_EXP_SET_U_EXTRACTOR,
fields=[ofproto.OXM_OF_IPV4_SRC, ofproto.OXM_OF_IPV4_DST],
table_id=0,
biflow=1)
datapath.send_msg(req)
""" Set lookup extractor = {eth_dst} """
req = bebaparser.OFPExpMsgKeyExtract(datapath=datapath,
command=bebaproto.OFPSC_EXP_SET_L_EXTRACTOR,
fields=[ofproto.OXM_OF_ETH_SRC],
table_id=1)
datapath.send_msg(req)
""" Set update extractor = {eth_src} """
req = bebaparser.OFPExpMsgKeyExtract(datapath=datapath,
command=bebaproto.OFPSC_EXP_SET_U_EXTRACTOR,
fields=[ofproto.OXM_OF_ETH_SRC],
table_id=1)
datapath.send_msg(req)
########################### SET GD DATA VARIABLE ############################################
# req = bebaparser.OFPExpMsgHeaderFieldExtract(
# datapath=datapath,
# table_id=0,
# extractor_id=0,
# field=ofproto.OXM_OF_IPV4_SRC
# )
# datapath.send_msg(req)
req = bebaparser.OFPExpMsgsSetGlobalDataVariable(
datapath=datapath,
table_id=0,
global_data_variable_id=0,
value=313
)
datapath.send_msg(req)
req = bebaparser.OFPExpMsgsSetGlobalDataVariable(
datapath=datapath,
table_id=0,
global_data_variable_id=2,
value=22
)
datapath.send_msg(req)
req = bebaparser.OFPExpMsgsSetGlobalDataVariable(
datapath=datapath,
table_id=0,
global_data_variable_id=4,
value=44
)
datapath.send_msg(req)
req = bebaparser.OFPExpMsgsSetGlobalDataVariable(
datapath=datapath,
table_id=0,
global_data_variable_id=5,
value=55
)
datapath.send_msg(req)
########################### SET GD DATA VARIABLE ############################################
req = bebaparser.OFPExpMsgsSetGlobalDataVariable(
datapath=datapath,
table_id=1,
global_data_variable_id=3,
value=55
)
datapath.send_msg(req)
########################### SET HF DATA VARIABLE TAB 1 ############################################
# SI PUO FARE???
''' HF[0] = OXM_OF_METADATA [id_pkt] '''
req = bebaparser.OFPExpMsgHeaderFieldExtract(
datapath=datapath,
table_id=1,
extractor_id=0,
field=ofproto.OXM_OF_ETH_SRC
)
datapath.send_msg(req)
# ''' HF[0] = OXM_OF_METADATA [id_pkt] '''
# req = bebaparser.OFPExpMsgHeaderFieldExtract(
# datapath=datapath,
# table_id=1,
# extractor_id=0,
# field=bebaproto.OXM_EXP_STATE
# )
# datapath.send_msg(req)
# aggiunta cosi tanto per fare un nuovo commit
# ''' HF[0] = OXM_OF_METADATA [id_pkt] '''
# req = bebaparser.OFPExpMsgHeaderFieldExtract(
# datapath=datapath,
# table_id=1,
# extractor_id=0,
# field=bebaproto.OXM_EXP_STATE
# )
# datapath.send_msg(req)
''' ####################### TAB 0 NULLA serve solo per i bug di OpenFlow, servono 2 stage xke le modifiche MPLS siano visibili'''
# Non fa niente, ci sta solo per risolvere bug (presunti) di OpenFlow
# match = ofparser.OFPMatch(condition0=0)
# actions = [bebaparser.OFPExpActionSetState(state=1, table_id=0),
# ofparser.OFPActionOutput(ofproto.OFPP_FLOOD)]
# inst = [ofparser.OFPInstructionActions(ofproto.OFPIT_APPLY_ACTIONS,actions)]
# mod = ofparser.OFPFlowMod(datapath=datapath, table_id=0,
# priority=0, match=match, instructions=inst)
# datapath.send_msg(mod)
# match = ofparser.OFPMatch()#condition0=1)
# actions = [bebaparser.OFPExpActionSetState(state=1, table_id=0),
# bebaparser.OFPExpActionSetDataVariable(table_id=0, port_id=1, opcode=bebaproto.OPCODE_SUM, output_mem_pd_id=0, operand_1_mem_pd_id=1, operand_2_mem_pd_id=1),
# # bebaparser.OFPExpActionWriteContextToField(src_type=bebaproto.SOURCE_TYPE_GLOBAL_DATA_VAR,src_id=0,dst_field=ofproto.OXM_OF_MPLS_LABEL),
# bebaparser.OFPExpActionSetDataVariable(table_id=0, opcode=bebaproto.OPCODE_SUM, output_gd_id=3, operand_1_hf_id=0, operand_2_cost=0),
# ofparser.OFPActionOutput(ofproto.OFPP_FLOOD)]
# inst = [ofparser.OFPInstructionActions(ofproto.OFPIT_APPLY_ACTIONS,actions)]
# mod = ofparser.OFPFlowMod(datapath=datapath, table_id=0,
# priority=0, match=match, instructions=inst)
# datapath.send_msg(mod)
# match = ofparser.OFPMatch(eth_type=0x0800 ,ipv4_src=('10.0.0.0','255.255.255.0'))
match = ofparser.OFPMatch()
actions = [bebaparser.OFPExpActionSetState(state=1, table_id=0),
# bebaparser.OFPExpActionSetDataVariable(table_id=0, opcode=bebaproto.OPCODE_SUM, output_fd_id=1, operand_1_hf_id=0, operand_2_cost=3)]
# bebaparser.OFPExpActionSetDataVariable(table_id=0, opcode=bebaproto.OPCODE_SUM, output_fd_id=2, operand_1_gd_id=0, operand_2_gd_id=2)]
bebaparser.OFPExpActionWriteContextToField(src_type=bebaproto.SOURCE_TYPE_GLOBAL_DATA_VAR,src_id=0,dst_field=ofproto.OXM_OF_METADATA)]
inst = [ofparser.OFPInstructionActions(ofproto.OFPIT_APPLY_ACTIONS, actions),
# ofparser.OFPInstructionWriteMetadata(metadata=13, metadata_mask=0xFFFFFFFF),
ofparser.OFPInstructionGotoTable(1)]
mod = ofparser.OFPFlowMod(datapath=datapath, table_id=0,
priority=0, match=match, instructions=inst)
datapath.send_msg(mod)
''' ####################### TAB 1 '''
match = ofparser.OFPMatch()#state=2)
actions = [bebaparser.OFPExpActionSetState(state=2, table_id=1),
bebaparser.OFPExpActionSetDataVariable(table_id=1, opcode=bebaproto.OPCODE_SUM, output_fd_id=1, operand_1_hf_id=0, operand_2_cost=1),
ofparser.OFPActionOutput(ofproto.OFPP_FLOOD)]
# bebaparser.OFPExpActionSetDataVariable(table_id=1, opcode=bebaproto.OPCODE_SUM, output_gd_id=0, operand_1_gd_id=1, operand_2_cost=3)]
inst = [ofparser.OFPInstructionActions(ofproto.OFPIT_APPLY_ACTIONS,actions)]
mod = ofparser.OFPFlowMod(datapath=datapath, table_id=1,
priority=10, match=match, instructions=inst)
datapath.send_msg(mod)
# match = ofparser.OFPMatch(metadata=313)
# actions = [bebaparser.OFPExpActionSetState(state=2, table_id=1),
# bebaparser.OFPExpActionSetDataVariable(table_id=1, opcode=bebaproto.OPCODE_SUM, output_gd_id=0, operand_1_gd_id=3, operand_2_cost=3)]
# inst = [ofparser.OFPInstructionActions(ofproto.OFPIT_APPLY_ACTIONS,actions)]
# mod = ofparser.OFPFlowMod(datapath=datapath, table_id=1,
# priority=0, match=match, instructions=inst)
# datapath.send_msg(mod)
# # for each input port, for each state
# for i in range(1, N+1):
# for s in range(N+1):
# match = ofparser.OFPMatch(in_port=i, state=s)
# if s == 0:
# out_port = ofproto.OFPP_FLOOD
# else:
# out_port = s
# actions = [bebaparser.OFPExpActionSetState(state=i, table_id=0, hard_timeout=10),
# ofparser.OFPActionOutput(out_port)]
# self.add_flow(datapath=datapath, table_id=0, priority=0,
# match=match, actions=actions)
""" Need to drop some packets for DEMO puporses only (avoid learning before manual send_eth)"""
def install_leaves(self, datapath):
##################################### TABLE 0: DISPATCHING ##################################################
######################### TABLE 0 CONFIG ###############
req = bebaparser.OFPExpMsgConfigureStatefulTable(datapath=datapath,
table_id=0,
stateful=1)
datapath.send_msg(req)
""" Set lookup extractor = {eth_dst} """
req = bebaparser.OFPExpMsgKeyExtract(
datapath=datapath,
command=bebaproto.OFPSC_EXP_SET_L_EXTRACTOR,
fields=[ofproto.OXM_OF_IN_PORT],
table_id=0)
datapath.send_msg(req)
""" Set update extractor = {eth_dst} """
req = bebaparser.OFPExpMsgKeyExtract(
datapath=datapath,
command=bebaproto.OFPSC_EXP_SET_U_EXTRACTOR,
fields=[ofproto.OXM_OF_IN_PORT],
table_id=0)
datapath.send_msg(req)
""" Field extractor for mpls label """
req = bebaparser.OFPExpMsgHeaderFieldExtract(
datapath=datapath,
table_id=0,
extractor_id=0,
field=ofproto.OXM_OF_MPLS_LABEL)
datapath.send_msg(req)
""" Field extractor for timestamp """
req = bebaparser.OFPExpMsgHeaderFieldExtract(
datapath=datapath,
table_id=0,
extractor_id=1,
field=bebaproto.OXM_EXP_TIMESTAMP)
datapath.send_msg(req)
""" Packet counter_max for designing probe frequency """
req = bebaparser.OFPExpMsgsSetGlobalDataVariable(
datapath=datapath, table_id=0, global_data_variable_id=0, value=9)
datapath.send_msg(req)
""" Condition C0: if counter reaches counter_max, then trigger probe sending """
req = bebaparser.OFPExpMsgSetCondition(
datapath=datapath,
table_id=0,
condition_id=0,
condition=bebaproto.CONDITION_GTE,
operand_1_fd_id=0,
operand_2_gd_id=0)
datapath.send_msg(req)
req = bebaparser.OFPExpMsgSetCondition(
datapath=datapath,
table_id=0,
condition_id=3,
condition=bebaproto.CONDITION_GTE,
operand_1_fd_id=0,
operand_2_gd_id=0)
datapath.send_msg(req)
##################################### TABLE 0 FLOWS ##################################################
""" RECEIVE PROBE ACTION """
""" When a probe is received tab0 sends it to tab3"""
""" match: MPLS """
""" no action """
""" instruction: goto tab3"""
match = ofparser.OFPMatch(eth_type=0x8847)
instructions = [ofparser.OFPInstructionGotoTable(3)]
mod = ofparser.OFPFlowMod(datapath=datapath,
table_id=0,
priority=200,
match=match,
instructions=instructions)
datapath.send_msg(mod)
for i in UPPER_PORTS:
""" Writes metadata 1 if C0 is true (i.e. if it's time to send probe) to inform the Util Table (2) """
match = ofparser.OFPMatch(in_port=i, condition0=1)
actions = [
bebaparser.OFPExpActionSetDataVariable(
table_id=0,
opcode=bebaproto.OPCODE_SUB,
output_fd_id=0,
operand_1_fd_id=0,
operand_2_gd_id=0),
ofparser.OFPActionPushMpls()
] #push mpls for tab 2
instructions = [
ofparser.OFPInstructionActions(ofproto.OFPIT_APPLY_ACTIONS,
actions),
ofparser.OFPInstructionWriteMetadata(metadata=1,
metadata_mask=0xffffffff),
ofparser.OFPInstructionGotoTable(2)
]
mod = ofparser.OFPFlowMod(datapath=datapath,
table_id=0,
priority=50,
match=match,
instructions=instructions)
datapath.send_msg(mod)
""" If C0 is false, update the counter (i++) and go to Util Table for ewma measuring """
match = ofparser.OFPMatch(in_port=i, condition0=0)
actions = [
bebaparser.OFPExpActionSetDataVariable(
table_id=0,
opcode=bebaproto.OPCODE_SUM,
output_fd_id=0,
operand_1_fd_id=0,
operand_2_cost=1)
]
instructions = [
ofparser.OFPInstructionActions(ofproto.OFPIT_APPLY_ACTIONS,
actions),
ofparser.OFPInstructionGotoTable(2)
]
mod = ofparser.OFPFlowMod(datapath=datapath,
table_id=0,
priority=30,
match=match,
instructions=instructions)
datapath.send_msg(mod)
""" For packets from down ports (attached to hosts): go to ToR Discovery table (1) """
for i in DOWN_PORTS:
match = ofparser.OFPMatch(in_port=i)
instructions = [ofparser.OFPInstructionGotoTable(1)]
mod = ofparser.OFPFlowMod(datapath=datapath,
table_id=0,
priority=0,
match=match,
instructions=instructions)
datapath.send_msg(mod)
for i in [0, 1]:
match = ofparser.OFPMatch(in_port=3,
eth_type=0x0800,
ip_proto=6,
tcp_dst=10000 + i)
actions = [ofparser.OFPActionOutput(i + 1)]
self.add_flow(datapath=datapath,
table_id=0,
priority=200,
match=match,
actions=actions)
match = ofparser.OFPMatch(in_port=3,
eth_type=0x0800,
ip_proto=6,
tcp_src=10000 + i)
actions = [ofparser.OFPActionOutput(i + 1)]
self.add_flow(datapath=datapath,
table_id=0,
priority=200,
match=match,
actions=actions)
######################## TABLE 1 ToR DISCOVERY #########################################################
# this cycle writes metadata specifying to which leaf belongs the packet
for i in LEAVES:
if (i != datapath.id):
match = ofparser.OFPMatch(eth_dst=MAC_ADDRS[i - 1])
instructions = [
ofparser.OFPInstructionWriteMetadata(
metadata=i, metadata_mask=0xffffffff),
ofparser.OFPInstructionGotoTable(3)
]
mod = ofparser.OFPFlowMod(datapath=datapath,
table_id=1,
priority=0,
match=match,
instructions=instructions)
datapath.send_msg(mod)
######################### TABLE 2: ACTIVE PROBING ######################################################
################### TABLE 2 CONFIG #########
req = bebaparser.OFPExpMsgConfigureStatefulTable(datapath=datapath,
table_id=2,
stateful=1)
datapath.send_msg(req)
""" Set lookup extractor = {IN_PORT} """
req = bebaparser.OFPExpMsgKeyExtract(
datapath=datapath,
command=bebaproto.OFPSC_EXP_SET_L_EXTRACTOR,
fields=[ofproto.OXM_OF_IN_PORT],
table_id=2)
datapath.send_msg(req)
""" Set update extractor = {IN_PORT} """
req = bebaparser.OFPExpMsgKeyExtract(
datapath=datapath,
command=bebaproto.OFPSC_EXP_SET_U_EXTRACTOR,
fields=[ofproto.OXM_OF_IN_PORT],
table_id=2)
datapath.send_msg(req)
# multiply factor: convert to kbit/s
req = bebaparser.OFPExpMsgsSetGlobalDataVariable(
datapath=datapath,
table_id=2,
global_data_variable_id=0,
value=8000)
datapath.send_msg(req)
# number of averaging samples
req = bebaparser.OFPExpMsgsSetGlobalDataVariable(
datapath=datapath, table_id=2, global_data_variable_id=3, value=40)
datapath.send_msg(req)
req = bebaparser.OFPExpMsgHeaderFieldExtract(
datapath=datapath,
table_id=2,
extractor_id=1,
field=bebaproto.OXM_EXP_TIMESTAMP)
datapath.send_msg(req)
req = bebaparser.OFPExpMsgHeaderFieldExtract(
datapath=datapath,
table_id=2,
extractor_id=2,
field=bebaproto.OXM_EXP_PKT_LEN)
datapath.send_msg(req)
req = bebaparser.OFPExpMsgSetCondition(
datapath=datapath,
condition=bebaproto.CONDITION_GTE,
condition_id=0,
table_id=2,
operand_1_fd_id=4,
operand_2_gd_id=3)
datapath.send_msg(req)
############################### TABLE 2 FLOWS #############################
""" For every packet coming from spine ports, calculates ewma """
for i in UPPER_PORTS:
#simply ewma measuring
match = ofparser.OFPMatch(in_port=i, condition0=1)
actions_ewma_1 = [ #calculates deltaT: FDV[1]=HF[1]-FDV[0]=TS_NOW - TS_LAST
bebaparser.OFPExpActionSetDataVariable(
table_id=2,
opcode=bebaproto.OPCODE_SUB,
output_fd_id=1,
operand_1_hf_id=1,
operand_2_fd_id=0),
#calculates rate: R = (bytes / deltaT_us) * 1000 kB/s
bebaparser.OFPExpActionSetDataVariable(
table_id=2,
opcode=bebaproto.OPCODE_MUL,
output_fd_id=2,
operand_1_fd_id=2,
operand_2_gd_id=0),
#stores the result in FDV[3]: THE FLOW ESTIMATED RATE
bebaparser.OFPExpActionSetDataVariable(
table_id=2,
opcode=bebaproto.OPCODE_DIV,
output_fd_id=2,
operand_1_fd_id=2,
operand_2_fd_id=1),
#calculates ewma
bebaparser.OFPExpActionSetDataVariable(
table_id=2,
opcode=bebaproto.OPCODE_EWMA,
output_fd_id=3,
operand_1_fd_id=3,
operand_2_cost=bebaproto.EWMA_PARAM_0250,
operand_3_fd_id=2),
#saves current timestamp
bebaparser.OFPExpActionSetDataVariable(
table_id=2,
opcode=bebaproto.OPCODE_SUM,
output_fd_id=0,
operand_1_hf_id=1,
operand_2_cost=0),
#counter returns to zero
bebaparser.OFPExpActionSetDataVariable(
table_id=2,
opcode=bebaproto.OPCODE_SUB,
output_fd_id=4,
operand_1_fd_id=4,
operand_2_fd_id=4),
# saves in GDV[i] the ewma
bebaparser.OFPExpActionSetDataVariable(
table_id=2,
opcode=bebaproto.OPCODE_SUM,
output_gd_id=i,
operand_1_fd_id=3,
operand_2_cost=0)
]
self.add_flow(datapath=datapath,
table_id=2,
priority=30,
match=match,
actions=actions_ewma_1 +
[ofparser.OFPActionOutput(3)])
match = ofparser.OFPMatch(in_port=i, condition0=0)
actions_ewma_2 = [
bebaparser.OFPExpActionSetDataVariable(
table_id=2,
opcode=bebaproto.OPCODE_SUM,
output_fd_id=2,
operand_1_fd_id=2,
operand_2_hf_id=2),
bebaparser.OFPExpActionSetDataVariable(
table_id=2,
opcode=bebaproto.OPCODE_SUM,
output_fd_id=4,
operand_1_fd_id=4,
operand_2_cost=1)
]
self.add_flow(datapath=datapath,
table_id=2,
priority=30,
match=match,
actions=actions_ewma_2 +
[ofparser.OFPActionOutput(3)])
""" PROBES: When it matches metadata=1 it means that this packet has to be duplicated to piggyback on it the probe """
#group mod for packet duplication and probing
buckets = []
actions1 = [
ofparser.OFPActionSetField(mpls_tc=datapath.id), #the GDV[i]
bebaparser.OFPExpActionWriteContextToField(
src_type=bebaproto.SOURCE_TYPE_GLOBAL_DATA_VAR,
src_id=i,
dst_field=ofproto.OXM_OF_MPLS_LABEL),
ofparser.OFPActionOutput(ofproto.OFPP_IN_PORT)
]
buckets.append(ofparser.OFPBucket(actions=actions1))
actions1 = [
ofparser.OFPActionSetField(
mpls_tc=datapath.id), #the GDV[other]
bebaparser.OFPExpActionWriteContextToField(
src_type=bebaproto.SOURCE_TYPE_GLOBAL_DATA_VAR,
src_id=(1 if i == 2 else 2),
dst_field=ofproto.OXM_OF_MPLS_LABEL),
ofparser.OFPActionOutput((1 if i == 2 else 2))
]
buckets.append(ofparser.OFPBucket(actions=actions1))
req = ofparser.OFPGroupMod(datapath=datapath,
type_=ofproto.OFPGT_ALL,
group_id=i,
buckets=buckets)
datapath.send_msg(req)
# actual match and actions: group action, popMpls() and output(3)
match = ofparser.OFPMatch(in_port=i, eth_type=0x8847, metadata=1)
actions = [
ofparser.OFPActionGroup(i),
ofparser.OFPActionPopMpls(),
ofparser.OFPActionOutput(3)
]
self.add_flow(datapath=datapath,
table_id=2,
priority=100,
match=match,
actions=actions)
for j in [0, 1]:
match = ofparser.OFPMatch(in_port=i,
eth_type=0x0800,
ip_proto=6,
tcp_dst=10000 + j,
condition0=1)
actions = actions_ewma_1 + [ofparser.OFPActionOutput(3)]
self.add_flow(datapath=datapath,
table_id=2,
priority=150,
match=match,
actions=actions)
match = ofparser.OFPMatch(in_port=i,
eth_type=0x0800,
ip_proto=6,
tcp_src=10000 + j,
condition0=1)
actions = actions_ewma_1 + [ofparser.OFPActionOutput(3)]
self.add_flow(datapath=datapath,
table_id=2,
priority=150,
match=match,
actions=actions)
match = ofparser.OFPMatch(in_port=i,
eth_type=0x0800,
ip_proto=6,
tcp_dst=10000 + j,
condition0=0)
actions = actions_ewma_2 + [ofparser.OFPActionOutput(3)]
self.add_flow(datapath=datapath,
table_id=2,
priority=150,
match=match,
actions=actions)
match = ofparser.OFPMatch(in_port=i,
eth_type=0x0800,
ip_proto=6,
tcp_src=10000 + j,
condition0=0)
actions = actions_ewma_2 + [ofparser.OFPActionOutput(3)]
self.add_flow(datapath=datapath,
table_id=2,
priority=150,
match=match,
actions=actions)
######################## TABLE 3: FORWARDING ##############################################################
######################## TABLE 3 CONFIG #####################################################################
##### GDV[1] contains path utilization to dest 1 on port 1
##### GDV[2] contains path utilization to dest 2 on port 1
##### GDV[3] contains path utilization to dest 1 on port 2
##### GDV[4] contains path utilization to dest 2 on port 2
req = bebaparser.OFPExpMsgConfigureStatefulTable(datapath=datapath,
table_id=3,
stateful=1)
datapath.send_msg(req)
""" Set lookup extractor = {ETH_DST IP_PROTO TCP_DST} """
req = bebaparser.OFPExpMsgKeyExtract(
datapath=datapath,
command=bebaproto.OFPSC_EXP_SET_L_EXTRACTOR,
fields=[
ofproto.OXM_OF_IPV4_SRC, ofproto.OXM_OF_IPV4_DST,
ofproto.OXM_OF_TCP_SRC, ofproto.OXM_OF_TCP_DST
],
table_id=3)
datapath.send_msg(req)
""" Set update extractor = {} """
req = bebaparser.OFPExpMsgKeyExtract(
datapath=datapath,
command=bebaproto.OFPSC_EXP_SET_U_EXTRACTOR,
fields=[
ofproto.OXM_OF_IPV4_SRC, ofproto.OXM_OF_IPV4_DST,
ofproto.OXM_OF_TCP_SRC, ofproto.OXM_OF_TCP_DST
],
table_id=3)
datapath.send_msg(req)
req = bebaparser.OFPExpMsgHeaderFieldExtract(
datapath=datapath,
table_id=3,
extractor_id=0,
field=ofproto.OXM_OF_MPLS_LABEL)
datapath.send_msg(req)
req = bebaparser.OFPExpMsgHeaderFieldExtract(
datapath=datapath,
table_id=3,
extractor_id=1,
field=bebaproto.OXM_EXP_TIMESTAMP)
datapath.send_msg(req)
req = bebaparser.OFPExpMsgHeaderFieldExtract(
datapath=datapath,
table_id=3,
extractor_id=2,
field=bebaproto.OXM_EXP_PKT_LEN)
datapath.send_msg(req)
# GDV[0] = multiply factor
req = bebaparser.OFPExpMsgsSetGlobalDataVariable(
datapath=datapath,
table_id=3,
global_data_variable_id=0,
value=8000)
datapath.send_msg(req)
# GDV[6] = packets needed for average
req = bebaparser.OFPExpMsgsSetGlobalDataVariable(
datapath=datapath,
table_id=3,
global_data_variable_id=6,
value=40 - 1)
datapath.send_msg(req)
# GDV[5] = elephant flow threshold
req = bebaparser.OFPExpMsgsSetGlobalDataVariable(
datapath=datapath,
table_id=3,
global_data_variable_id=5,
value=2000) # 2000 kb/s
datapath.send_msg(req)
# Lower flow threshold
req = bebaparser.OFPExpMsgsSetGlobalDataVariable(
datapath=datapath,
table_id=3,
global_data_variable_id=7,
value=300)
datapath.send_msg(req)
for i in [1, 2, 3]:
req = bebaparser.OFPExpMsgsSetGlobalDataVariable(
datapath=datapath,
table_id=3,
global_data_variable_id=i,
value=0)
datapath.send_msg(req)
#################################### TABLE 3 FLOWS ###################################
# many conditions as the number of LEAVES-1
# for i in LEAVES except datapath.id: create condition[i]
# in the case of 2 Spines. For more spines the configuration becomes more complex
for destLeaf in [1, 2]:
# C[destinationLeaf]: which port is less utilized?
req = bebaparser.OFPExpMsgSetCondition(
datapath=datapath,
condition=bebaproto.CONDITION_LTE,
condition_id=destLeaf,
table_id=3,
operand_1_gd_id=destLeaf,
operand_2_gd_id=destLeaf + 2)
datapath.send_msg(req)
# C[0], has the flow exceeded threshold? i.e. flow_rate >= threshold => FDV[3] >= GDV[5]
req = bebaparser.OFPExpMsgSetCondition(
datapath=datapath,
condition=bebaproto.CONDITION_GTE,
condition_id=0,
table_id=3,
operand_1_fd_id=3,
operand_2_gd_id=5)
datapath.send_msg(req)
# C[3], is the other flow lower than a value? FDV[4] < GDV[7] ?
req = bebaparser.OFPExpMsgSetCondition(
datapath=datapath,
condition=bebaproto.CONDITION_LTE,
condition_id=3,
table_id=3,
operand_1_fd_id=4,
operand_2_gd_id=7)
datapath.send_msg(req)
# C[4]: did the counter reach counterMax? FDV[5] = GDV[6] ?
req = bebaparser.OFPExpMsgSetCondition(
datapath=datapath,
condition=bebaproto.CONDITION_EQ,
condition_id=4,
table_id=3,
operand_1_fd_id=5,
operand_2_gd_id=6)
datapath.send_msg(req)
# leaf number dependent flows
if datapath.id == 1:
#LEAF 1 new flows: fetch the destination leaf and check the appropriate condition
match1true = ofparser.OFPMatch(metadata=2, condition1=1,
state=0) #dst=2, port 1
match2true = ofparser.OFPMatch(metadata=3, condition2=1,
state=0) #dst=3, port 1
match1false = ofparser.OFPMatch(metadata=2, condition1=0,
state=0) #dst=2, port 2
match2false = ofparser.OFPMatch(metadata=3, condition2=0,
state=0) #dst=3, port 2
elif datapath.id == 2:
#LEAF 2 new flows: fetch the destination leaf and check the appropriate condition
match1true = ofparser.OFPMatch(metadata=1, condition1=1,
state=0) #dst=1, port 1
match2true = ofparser.OFPMatch(metadata=3, condition2=1,
state=0) #dst=3, port 1
match1false = ofparser.OFPMatch(metadata=1, condition1=0,
state=0) #dst=1, port 2
match2false = ofparser.OFPMatch(metadata=3, condition2=0,
state=0) #dst=3, port 2
elif datapath.id == 3:
#LEAF 3 new flows: fetch the destination leaf and check the appropriate condition
match1true = ofparser.OFPMatch(metadata=1, condition1=1,
state=0) #dst=1, port 1
match2true = ofparser.OFPMatch(metadata=2, condition2=1,
state=0) #dst=2, port 1
match1false = ofparser.OFPMatch(metadata=1, condition1=0,
state=0) #dst=1, port 2
match2false = ofparser.OFPMatch(metadata=2, condition2=0,
state=0) #dst=2, port 2
#if port 1 is better, set_state(1) and output 1
actions_true = [
bebaparser.OFPExpActionSetState(state=1,
table_id=3,
idle_timeout=5),
ofparser.OFPActionOutput(1)
]
#if port 2 is better, set_state(2) and output 2
actions_false = [
bebaparser.OFPExpActionSetState(state=2,
table_id=3,
idle_timeout=5),
ofparser.OFPActionOutput(2)
]
self.add_flow(datapath=datapath,
table_id=3,
priority=20,
match=match1true,
actions=actions_true)
self.add_flow(datapath=datapath,
table_id=3,
priority=20,
match=match2true,
actions=actions_true)
self.add_flow(datapath=datapath,
table_id=3,
priority=20,
match=match1false,
actions=actions_false)
self.add_flow(datapath=datapath,
table_id=3,
priority=20,
match=match2false,
actions=actions_false)
""" extract external probes' data and store in GDVs """
match = ofparser.OFPMatch(eth_type=0x8847, mpls_tc=datapath.id)
self.add_flow(datapath=datapath,
table_id=3,
priority=300,
match=match,
actions=[])
for i in UPPER_PORTS:
for leafNo in LEAVES:
match = ofparser.OFPMatch(in_port=i,
eth_type=0x8847,
mpls_tc=leafNo)
""" actions: save in GDVs external probes' data """
if datapath.id == 1:
if leafNo == 2:
actions = [
bebaparser.OFPExpActionSetDataVariable(
table_id=3,
opcode=bebaproto.OPCODE_SUM,
output_gd_id=(1 if i == 1 else 3),
operand_1_hf_id=0,
operand_2_cost=0)
]
elif leafNo == 3:
actions = [
bebaparser.OFPExpActionSetDataVariable(
table_id=3,
opcode=bebaproto.OPCODE_SUM,
output_gd_id=(2 if i == 1 else 4),
operand_1_hf_id=0,
operand_2_cost=0)
]
elif datapath.id == 2:
if leafNo == 1:
actions = [
bebaparser.OFPExpActionSetDataVariable(
table_id=3,
opcode=bebaproto.OPCODE_SUM,
output_gd_id=(1 if i == 1 else 3),
operand_1_hf_id=0,
operand_2_cost=0)
]
elif leafNo == 3:
actions = [
bebaparser.OFPExpActionSetDataVariable(
table_id=3,
opcode=bebaproto.OPCODE_SUM,
output_gd_id=(2 if i == 1 else 4),
operand_1_hf_id=0,
operand_2_cost=0)
]
elif datapath.id == 3:
if leafNo == 1:
actions = [
bebaparser.OFPExpActionSetDataVariable(
table_id=3,
opcode=bebaproto.OPCODE_SUM,
output_gd_id=(1 if i == 1 else 3),
operand_1_hf_id=0,
operand_2_cost=0)
]
elif leafNo == 2:
actions = [
bebaparser.OFPExpActionSetDataVariable(
table_id=3,
opcode=bebaproto.OPCODE_SUM,
output_gd_id=(2 if i == 1 else 4),
operand_1_hf_id=0,
operand_2_cost=0)
]
self.add_flow(datapath=datapath,
table_id=3,
priority=200,
match=match,
actions=actions)
for s in UPPER_PORTS:
for metadata in LEAVES:
# normal conditions, installed flows continue flowing, calculates ewma if counter reaches max
match = ofparser.OFPMatch(in_port=3,
state=s,
metadata=metadata,
condition4=1)
actions_ewma = [ #calculates deltaT: FDV[1]=HF[1]-FDV[0]=TS_NOW - TS_LAST
bebaparser.OFPExpActionSetDataVariable(
table_id=3,
opcode=bebaproto.OPCODE_SUB,
output_fd_id=1,
operand_1_hf_id=1,
operand_2_fd_id=0),
#calculates rate: R = (bytes / deltaT_us) * 1000 kB/s
bebaparser.OFPExpActionSetDataVariable(
table_id=3,
opcode=bebaproto.OPCODE_MUL,
output_fd_id=2,
operand_1_fd_id=2,
operand_2_gd_id=0),
#stores the result in FDV[3]: THE FLOW ESTIMATED RATE
bebaparser.OFPExpActionSetDataVariable(
table_id=3,
opcode=bebaproto.OPCODE_DIV,
output_fd_id=2,
operand_1_fd_id=2,
operand_2_fd_id=1),
#calculates ewma
bebaparser.OFPExpActionSetDataVariable(
table_id=3,
opcode=bebaproto.OPCODE_EWMA,
output_fd_id=3,
operand_1_fd_id=3,
operand_2_cost=bebaproto.EWMA_PARAM_0250,
operand_3_fd_id=2),
#saves current timestamp
bebaparser.OFPExpActionSetDataVariable(
table_id=3,
opcode=bebaproto.OPCODE_SUM,
output_fd_id=0,
operand_1_hf_id=1,
operand_2_cost=0),
#counter returns to zero
bebaparser.OFPExpActionSetDataVariable(
table_id=3,
opcode=bebaproto.OPCODE_SUB,
output_fd_id=5,
operand_1_fd_id=5,
operand_2_fd_id=5)
]
# FDV[4] = flow's alternative path utilization
if datapath.id == 1:
if metadata == 2:
actions_ewma += [
bebaparser.OFPExpActionSetDataVariable(
table_id=3,
opcode=bebaproto.OPCODE_SUM,
output_fd_id=4,
operand_1_gd_id=(1 if s == 2 else 3),
operand_2_cost=0)
]
elif metadata == 3:
actions_ewma += [
bebaparser.OFPExpActionSetDataVariable(
table_id=3,
opcode=bebaproto.OPCODE_SUM,
output_fd_id=4,
operand_1_gd_id=(2 if s == 2 else 4),
operand_2_cost=0)
]
elif datapath.id == 2:
if metadata == 1:
actions_ewma += [
bebaparser.OFPExpActionSetDataVariable(
table_id=3,
opcode=bebaproto.OPCODE_SUM,
output_fd_id=4,
operand_1_gd_id=(1 if s == 2 else 3),
operand_2_cost=0)
]
elif metadata == 3:
actions_ewma += [
bebaparser.OFPExpActionSetDataVariable(
table_id=3,
opcode=bebaproto.OPCODE_SUM,
output_fd_id=4,
operand_1_gd_id=(2 if s == 2 else 4),
operand_2_cost=0)
]
elif datapath.id == 3:
if metadata == 1:
actions_ewma += [
bebaparser.OFPExpActionSetDataVariable(
table_id=3,
opcode=bebaproto.OPCODE_SUM,
output_fd_id=4,
operand_1_gd_id=(1 if s == 2 else 3),
operand_2_cost=0)
]
elif metadata == 2:
actions_ewma += [
bebaparser.OFPExpActionSetDataVariable(
table_id=3,
opcode=bebaproto.OPCODE_SUM,
output_fd_id=4,
operand_1_gd_id=(2 if s == 2 else 4),
operand_2_cost=0)
]
actions = actions_ewma + [ofparser.OFPActionOutput(s)]
self.add_flow(datapath=datapath,
table_id=3,
priority=30,
match=match,
actions=actions)
# normal conditions
match = ofparser.OFPMatch(in_port=3,
state=s,
metadata=metadata,
condition4=0)
actions_ewma_bg = [
bebaparser.OFPExpActionSetDataVariable(
table_id=3,
opcode=bebaproto.OPCODE_SUM,
output_fd_id=2,
operand_1_fd_id=2,
operand_2_hf_id=2),
bebaparser.OFPExpActionSetDataVariable(
table_id=3,
opcode=bebaproto.OPCODE_SUM,
output_fd_id=5,
operand_1_fd_id=5,
operand_2_cost=1)
]
actions = actions_ewma_bg + [ofparser.OFPActionOutput(s)]
self.add_flow(datapath=datapath,
table_id=3,
priority=30,
match=match,
actions=actions)
########### match for extended states: same thing as in normal states but evaluate condition0 ##########
match = ofparser.OFPMatch(in_port=3,
state=s + (1 << 5),
metadata=metadata,
condition0=1,
condition4=1)
actions = actions_ewma + [ofparser.OFPActionOutput(s)]
self.add_flow(datapath=datapath,
table_id=3,
priority=35,
match=match,
actions=actions)
match = ofparser.OFPMatch(in_port=3,
state=s + (1 << 5),
metadata=metadata,
condition0=1,
condition4=0)
actions = actions_ewma_bg + [ofparser.OFPActionOutput(s)]
self.add_flow(datapath=datapath,
table_id=3,
priority=35,
match=match,
actions=actions)
############# condition[0] and [3] are verified, (i.e. big flow) change port ###########
match = ofparser.OFPMatch(in_port=3,
state=s,
condition0=1,
condition3=1)
actions = [
bebaparser.OFPExpActionSetState(
state=(1 if s == 2 else 2) + (1 << 5),
table_id=3,
idle_timeout=5),
ofparser.OFPActionOutput(1 if s == 2 else 2)
]
self.add_flow(datapath=datapath,
table_id=3,
priority=40,
match=match,
actions=actions)
########### if the flow returns to a rate under the threshold #############################
match = ofparser.OFPMatch(in_port=3,
state=s + (1 << 5),
condition0=0)
actions = [
bebaparser.OFPExpActionSetState(state=s,
table_id=3,
idle_timeout=5),
ofparser.OFPActionOutput(s)
]
self.add_flow(datapath=datapath,
table_id=3,
priority=50,
match=match,
actions=actions)
"""
Make rules that form a diamond of dependencies
"""
flows = [
# Table 0
parser.OFPFlowStats(
table_id=0,
priority=10,
match=parser.OFPMatch(vlan_vid=(0x1000, 0x1FFE)),
instructions=[
parser.OFPInstructionGotoTable(1)
]
),
parser.OFPFlowStats(
table_id=0,
priority=10,
match=parser.OFPMatch(vlan_vid=(0x1002, 0x1FFE)),
instructions=[
parser.OFPInstructionGotoTable(1)
]
),
parser.OFPFlowStats(
table_id=0,
priority=0,
match=parser.OFPMatch(),
instructions=[]
"""
flows = [
# Table 0
parser.OFPFlowStats(table_id=0,
priority=1000,
match=parser.OFPMatch(tcp_dst=80),
instructions=[]),
parser.OFPFlowStats(table_id=0,
priority=1000,
match=parser.OFPMatch(tcp_dst=443),
instructions=[]),
parser.OFPFlowStats(table_id=0,
priority=0,
match=parser.OFPMatch(),
instructions=[parser.OFPInstructionGotoTable(1)]),
# Table 1
parser.OFPFlowStats(table_id=1,
priority=1000,
match=parser.OFPMatch(eth_dst=1),
instructions=[parser.OFPInstructionGotoTable(2)]),
parser.OFPFlowStats(table_id=1,
priority=1000,
match=parser.OFPMatch(eth_dst=2),
instructions=[parser.OFPInstructionGotoTable(2)]),
parser.OFPFlowStats(table_id=1,
priority=0,
match=parser.OFPMatch(),
instructions=[parser.OFPInstructionGotoTable(3)]),
def load_fsm(self, datapath):
LOG.info("Loading Table 1 FSM ...")
##=#=#=#=#=#=#=#=#=#=#=#=#=#=#=#=#=#=#=#=#=#=#=#=#=#=#=#=#=#=#=#=#=#=#=#
## INIT - ANY
"""
Match firstly incoming packets.
The actual version is little bit hacked, all incomming flows
are forwarded to the table 2 which is performed counting of all incomming data.
(TODO - remove eth_type and ip_proto?)
"""
match = ofparser.OFPMatch(eth_type=0x0800, ip_proto=6, state=self.INIT)
actions = [
osparser.OFPExpActionSetState(
state=self.ACTIVE,
table_id=1,
# TODO - TIMEOUTS
idle_timeout=1)
]
#inst = [ofparser.OFPInstructionActions(ofp.OFPIT_APPLY_ACTIONS, actions)]
inst = [
ofparser.OFPInstructionActions(ofp.OFPIT_APPLY_ACTIONS, actions),
ofparser.OFPInstructionGotoTable(table_id=2)
]
mod = ofparser.OFPFlowMod(datapath=datapath,
table_id=1,
priority=1,
match=match,
instructions=inst)
datapath.send_msg(mod)
##=#=#=#=#=#=#=#=#=#=#=#=#=#=#=#=#=#=#=#=#=#=#=#=#=#=#=#=#=#=#=#=#=#=#=#
## ACTIVE - ANY
"""
Match other incoming packets. Need this state since we do not want to
refresh timeouts of flow entry.
(TODO - remove eth_type and ip_proto?)
"""
match = ofparser.OFPMatch(eth_type=0x0800,
ip_proto=6,
state=self.ACTIVE)
"""
TODO - simplify ... remove useless stuff
"""
actions = []
#inst = [ofparser.OFPInstructionActions(ofp.OFPIT_APPLY_ACTIONS, actions)]
inst = [
ofparser.OFPInstructionActions(ofp.OFPIT_APPLY_ACTIONS, actions),
ofparser.OFPInstructionGotoTable(table_id=2)
]
mod = ofparser.OFPFlowMod(datapath=datapath,
table_id=1,
priority=1,
match=match,
instructions=inst)
datapath.send_msg(mod)
LOG.info("Done.")
def function_dynamic_nat(self, datapath):
""" Set table 1 as stateful """
req = bebaparser.OFPExpMsgConfigureStatefulTable(datapath=datapath,
table_id=1,
stateful=1)
datapath.send_msg(req)
""" Set table 2 restore """
req = bebaparser.OFPExpMsgConfigureStatefulTable(datapath=datapath,
table_id=2,
stateful=1)
datapath.send_msg(req)
############################### LOOKUP/UPDATE ###################################
""" Tab1 """
""" Set lookup extractor = {OXM_OF_METADATA} """
req = bebaparser.OFPExpMsgKeyExtract(
datapath=datapath,
command=bebaproto.OFPSC_EXP_SET_L_EXTRACTOR,
fields=[ofproto.OXM_OF_METADATA],
table_id=1)
datapath.send_msg(req)
""" Set update extractor = {OXM_OF_METADATA} """
req = bebaparser.OFPExpMsgKeyExtract(
datapath=datapath,
command=bebaproto.OFPSC_EXP_SET_U_EXTRACTOR,
fields=[ofproto.OXM_OF_METADATA],
table_id=1)
datapath.send_msg(req)
""" Tab2 """
""" Set lookup extractor = {OXM_OF_IPV4_SRC, OXM_OF_IP_PROTO, OXM_OF_TCP_SRC} """
req = bebaparser.OFPExpMsgKeyExtract(
datapath=datapath,
command=bebaproto.OFPSC_EXP_SET_L_EXTRACTOR,
fields=[
ofproto.OXM_OF_IPV4_SRC, ofproto.OXM_OF_IP_PROTO,
ofproto.OXM_OF_TCP_SRC
],
table_id=2)
datapath.send_msg(req)
""" Set lookup extractor = {OXM_OF_IPV4_DST, OXM_OF_IP_PROTO, OXM_OF_TCP_DST} """
req = bebaparser.OFPExpMsgKeyExtract(
datapath=datapath,
command=bebaproto.OFPSC_EXP_SET_U_EXTRACTOR,
fields=[
ofproto.OXM_OF_IPV4_DST, ofproto.OXM_OF_IP_PROTO,
ofproto.OXM_OF_TCP_DST
],
table_id=2)
datapath.send_msg(req)
""" Tab3 """
########################### SET STATE TABLE 1 ############################################
for stateVal in range(1, 21):
state = bebaparser.OFPExpMsgSetFlowState(
datapath=datapath,
state=2000 + stateVal,
keys=[stateVal, 0, 0, 0, 0, 0, 0, 0],
table_id=1)
datapath.send_msg(state)
########################### SET HF DATA VARIABLE TAB 1 ############################################
''' GD[0] = state_label'''
req = bebaparser.OFPExpMsgsSetGlobalDataVariable(
datapath=datapath, table_id=1, global_data_variable_id=0, value=0)
datapath.send_msg(req)
''' HF[0] = OXM_EXP_STATE [state_label] '''
req = bebaparser.OFPExpMsgHeaderFieldExtract(
datapath=datapath,
table_id=1,
extractor_id=0,
field=bebaproto.OXM_EXP_STATE)
datapath.send_msg(req)
########################### SET HF DATA VARIABLE TAB 2 ############################################
''' HF[0] = OXM_OF_IPV4_SRC [id_pkt] '''
req = bebaparser.OFPExpMsgHeaderFieldExtract(
datapath=datapath,
table_id=2,
extractor_id=0,
field=ofproto.OXM_OF_IPV4_SRC)
datapath.send_msg(req)
''' HF[1] = OXM_OF_TCP_SRC [id_pkt] '''
req = bebaparser.OFPExpMsgHeaderFieldExtract(
datapath=datapath,
table_id=2,
extractor_id=1,
field=ofproto.OXM_OF_TCP_SRC)
datapath.send_msg(req)
########################### SET HF DATA VARIABLE TAB 3 ############################################
''' HF[0] = OXM_OF_METADATA [metadata] '''
req = bebaparser.OFPExpMsgHeaderFieldExtract(
datapath=datapath,
table_id=3,
extractor_id=0,
field=ofproto.OXM_OF_METADATA)
datapath.send_msg(req)
################################# REGOLE ############################################
''' ####################### TAB 0 '''
match = ofparser.OFPMatch(state=0, in_port=LAN_PORT)
actions = [
bebaparser.OFPExpActionSetState(state=1, table_id=0),
bebaparser.OFPExpActionSetDataVariable(table_id=0,
opcode=bebaproto.OPCODE_SUM,
output_gd_id=1,
operand_1_gd_id=1,
operand_2_cost=1),
bebaparser.OFPExpActionWriteContextToField(
src_type=bebaproto.SOURCE_TYPE_GLOBAL_DATA_VAR,
src_id=1,
dst_field=ofproto.OXM_OF_METADATA)
]
inst = [
ofparser.OFPInstructionActions(ofproto.OFPIT_APPLY_ACTIONS,
actions),
ofparser.OFPInstructionGotoTable(1)
]
mod = ofparser.OFPFlowMod(datapath=datapath,
table_id=0,
priority=89,
match=match,
instructions=inst)
datapath.send_msg(mod)
# Line 12
match = ofparser.OFPMatch(state=1, in_port=LAN_PORT)
actions = []
inst = [
ofparser.OFPInstructionActions(ofproto.OFPIT_APPLY_ACTIONS,
actions),
ofparser.OFPInstructionGotoTable(3)
]
mod = ofparser.OFPFlowMod(datapath=datapath,
table_id=0,
priority=88,
match=match,
instructions=inst)
datapath.send_msg(mod)
# Line 13
match = ofparser.OFPMatch(state=0,
in_port=INTERNET_PORT,
eth_type=0x0800,
ipv4_dst='1.0.0.1')
actions = []
inst = [
ofparser.OFPInstructionActions(ofproto.OFPIT_APPLY_ACTIONS,
actions),
ofparser.OFPInstructionGotoTable(2)
]
mod = ofparser.OFPFlowMod(datapath=datapath,
table_id=0,
priority=87,
match=match,
instructions=inst)
datapath.send_msg(mod)
''' ####################### TAB 1 '''
# Line 0
# HF[0] = state_label
# GD[0] = state_label + 0 => GD[0] + HF[0]
# state_label -> metadata => GD[0] = HF[0]
match = ofparser.OFPMatch(in_port=3)
actions = [
bebaparser.OFPExpActionSetDataVariable(table_id=1,
opcode=bebaproto.OPCODE_SUM,
output_gd_id=0,
operand_1_hf_id=0,
operand_2_cost=0),
bebaparser.OFPExpActionWriteContextToField(
src_type=bebaproto.SOURCE_TYPE_GLOBAL_DATA_VAR,
src_id=0,
dst_field=ofproto.OXM_OF_METADATA)
]
inst = [
ofparser.OFPInstructionActions(ofproto.OFPIT_APPLY_ACTIONS,
actions),
ofparser.OFPInstructionGotoTable(2)
]
mod = ofparser.OFPFlowMod(datapath=datapath,
table_id=1,
priority=100,
match=match,
instructions=inst)
datapath.send_msg(mod)
''' ####################### TAB 2 restore'''
# Line 0
# ip.src -> R0 => HF[0] -> FD[0] => FD[0] = HF[0] + 0
# tcp.src -> R1 => HF[1] -> FD[1] => FD[1] = HF[1] + 0
match = ofparser.OFPMatch(state=0, in_port=LAN_PORT)
actions = [
bebaparser.OFPExpActionSetState(state=1, table_id=2),
bebaparser.OFPExpActionSetDataVariable(table_id=2,
opcode=bebaproto.OPCODE_SUM,
output_fd_id=0,
operand_1_hf_id=0,
operand_2_cost=0),
bebaparser.OFPExpActionSetDataVariable(table_id=2,
opcode=bebaproto.OPCODE_SUM,
output_fd_id=1,
operand_1_hf_id=1,
operand_2_cost=0)
]
inst = [
ofparser.OFPInstructionActions(ofproto.OFPIT_APPLY_ACTIONS,
actions),
ofparser.OFPInstructionGotoTable(3)
]
mod = ofparser.OFPFlowMod(datapath=datapath,
table_id=2,
priority=100,
match=match,
instructions=inst)
datapath.send_msg(mod)
# Line 1
# ip.dst = R0 => IPV4_DST = FD[0]
# tcp.dst = R1 => TCP_DST = FD[1]
match = ofparser.OFPMatch(state=1, in_port=INTERNET_PORT)
actions = [
bebaparser.OFPExpActionSetState(state=1, table_id=2),
bebaparser.OFPExpActionWriteContextToField(
src_type=bebaproto.SOURCE_TYPE_FLOW_DATA_VAR,
src_id=0,
dst_field=ofproto.OXM_OF_IPV4_DST),
bebaparser.OFPExpActionWriteContextToField(
src_type=bebaproto.SOURCE_TYPE_FLOW_DATA_VAR,
src_id=1,
dst_field=ofproto.OXM_OF_TCP_DST)
]
inst = [
ofparser.OFPInstructionActions(ofproto.OFPIT_APPLY_ACTIONS,
actions),
ofparser.OFPInstructionGotoTable(4)
]
mod = ofparser.OFPFlowMod(datapath=datapath,
table_id=2,
priority=99,
match=match,
instructions=inst)
datapath.send_msg(mod)
''' ####################### TAB 3 translate '''
# Line 3
# metadata(b16,b31) -> R1 => metadata(b16,b31) -> FD[1] => FD[1] = HF[0]
# ip.src = 10.0.0.1
# tcp.src = R1 => TCP_SRC = FD[1]
match = ofparser.OFPMatch(state=0, in_port=LAN_PORT, eth_type=0x0800)
actions = [
bebaparser.OFPExpActionSetState(state=1, table_id=3),
bebaparser.OFPExpActionSetDataVariable(table_id=3,
opcode=bebaproto.OPCODE_SUM,
output_fd_id=1,
operand_1_hf_id=0,
operand_2_cost=0),
ofparser.OFPActionSetField(ipv4_src="1.0.0.1"),
bebaparser.OFPExpActionWriteContextToField(
src_type=bebaproto.SOURCE_TYPE_FLOW_DATA_VAR,
src_id=1,
dst_field=ofproto.OXM_OF_TCP_SRC)
]
inst = [
ofparser.OFPInstructionActions(ofproto.OFPIT_APPLY_ACTIONS,
actions),
ofparser.OFPInstructionGotoTable(4)
]
mod = ofparser.OFPFlowMod(datapath=datapath,
table_id=3,
priority=97,
match=match,
instructions=inst)
datapath.send_msg(mod)
# Line 4
# ip.src = 10.0.0.1
# tcp.src = R1 => TCP_SRC = FD[1]
match = ofparser.OFPMatch(state=1, in_port=LAN_PORT, eth_type=0x0800)
actions = [
bebaparser.OFPExpActionSetState(state=1, table_id=3),
ofparser.OFPActionSetField(ipv4_src='1.0.0.1'),
bebaparser.OFPExpActionWriteContextToField(
src_type=bebaproto.SOURCE_TYPE_FLOW_DATA_VAR,
src_id=1,
dst_field=ofproto.OXM_OF_TCP_SRC)
]
inst = [
ofparser.OFPInstructionActions(ofproto.OFPIT_APPLY_ACTIONS,
actions),
ofparser.OFPInstructionGotoTable(4)
]
mod = ofparser.OFPFlowMod(datapath=datapath,
table_id=3,
priority=96,
match=match,
instructions=inst)
datapath.send_msg(mod)
def function_load_balancer(self, datapath):
""" Tab0 """
""" Set lookup extractor = {BiFlow} """
# GIA CONFIGURATA
""" Set table 3 translate """
req = bebaparser.OFPExpMsgConfigureStatefulTable(datapath=datapath,
table_id=3,
stateful=1)
datapath.send_msg(req)
############################### LOOKUP/UPDATE ###################################
""" Tab3 """
""" Set lookup extractor = {OXM_OF_IPV4_SRC, OXM_OF_TCP_SRC} """
req = bebaparser.OFPExpMsgKeyExtract(
datapath=datapath,
command=bebaproto.OFPSC_EXP_SET_L_EXTRACTOR,
fields=[ofproto.OXM_OF_IPV4_SRC, ofproto.OXM_OF_TCP_SRC],
table_id=3)
datapath.send_msg(req)
""" Set update extractor = {OXM_OF_IPV4_SRC, OXM_OF_TCP_SRC} """
req = bebaparser.OFPExpMsgKeyExtract(
datapath=datapath,
command=bebaproto.OFPSC_EXP_SET_U_EXTRACTOR,
fields=[ofproto.OXM_OF_IPV4_SRC, ofproto.OXM_OF_TCP_SRC],
table_id=3)
datapath.send_msg(req)
########################### SET GD E HF DATA VARIABLE TAB 3 ############################################
''' GD[0] = 0'''
req = bebaparser.OFPExpMsgsSetGlobalDataVariable(
datapath=datapath, table_id=3, global_data_variable_id=0, value=0)
datapath.send_msg(req)
''' GD[1] = LAN_DUE 10.0.0.2 hexadecimal'''
req = bebaparser.OFPExpMsgsSetGlobalDataVariable(
datapath=datapath,
table_id=3,
global_data_variable_id=1,
value=0x0200000a)
datapath.send_msg(req)
''' GD[2] = LAN_TRE 10.0.0.3 hexadecimal'''
req = bebaparser.OFPExpMsgsSetGlobalDataVariable(
datapath=datapath,
table_id=3,
global_data_variable_id=2,
value=0x0300000a)
datapath.send_msg(req)
''' GD[3] = PORT 80 '''
req = bebaparser.OFPExpMsgsSetGlobalDataVariable(
datapath=datapath,
table_id=3,
global_data_variable_id=3,
value=0x5000)
datapath.send_msg(req)
################################# RULES ############################################
''' ####################### TAB 0 '''
# Line 7
match = ofparser.OFPMatch(state=0,
in_port=INTERNET_PORT,
eth_type=0x0800,
ipv4_dst='1.0.0.1',
ip_proto=6,
tcp_dst=80)
actions = [
bebaparser.OFPExpActionSetState(state=1, table_id=0),
bebaparser.OFPExpActionSetDataVariable(table_id=0,
opcode=bebaproto.OPCODE_SUM,
output_gd_id=0,
operand_1_gd_id=0,
operand_2_cost=1),
bebaparser.OFPExpActionWriteContextToField(
src_type=bebaproto.SOURCE_TYPE_GLOBAL_DATA_VAR,
src_id=0,
dst_field=ofproto.OXM_OF_METADATA)
]
inst = [
ofparser.OFPInstructionActions(ofproto.OFPIT_APPLY_ACTIONS,
actions),
ofparser.OFPInstructionGotoTable(3)
]
mod = ofparser.OFPFlowMod(datapath=datapath,
table_id=0,
priority=93,
match=match,
instructions=inst)
datapath.send_msg(mod)
# Line 8
match = ofparser.OFPMatch(state=1,
in_port=INTERNET_PORT,
eth_type=0x0800,
ipv4_dst='1.0.0.1',
ip_proto=6,
tcp_dst=80)
actions = []
inst = [
ofparser.OFPInstructionActions(ofproto.OFPIT_APPLY_ACTIONS,
actions),
ofparser.OFPInstructionGotoTable(3)
]
mod = ofparser.OFPFlowMod(datapath=datapath,
table_id=0,
priority=92,
match=match,
instructions=inst)
datapath.send_msg(mod)
# Line 9
match = ofparser.OFPMatch(state=0,
in_port=LAN_PORT,
eth_type=0x0800,
ipv4_src='10.0.0.2',
ip_proto=6,
tcp_src=80)
actions = []
inst = [
ofparser.OFPInstructionActions(ofproto.OFPIT_APPLY_ACTIONS,
actions),
ofparser.OFPInstructionGotoTable(4)
]
mod = ofparser.OFPFlowMod(datapath=datapath,
table_id=0,
priority=91,
match=match,
instructions=inst)
datapath.send_msg(mod)
# Line 10
match = ofparser.OFPMatch(state=0,
in_port=LAN_PORT,
eth_type=0x0800,
ipv4_src='10.0.0.3',
ip_proto=6,
tcp_src=80)
actions = []
inst = [
ofparser.OFPInstructionActions(ofproto.OFPIT_APPLY_ACTIONS,
actions),
ofparser.OFPInstructionGotoTable(4)
]
mod = ofparser.OFPFlowMod(datapath=datapath,
table_id=0,
priority=90,
match=match,
instructions=inst)
datapath.send_msg(mod)
''' ####################### TAB 3 translate '''
# Line 0
# ip.dst = 10.0.0.2
# tcp.dst = 80
# 10.0.0.2 -> R0 => 10.0.0.2 -> FD[0] => FD[0] = GD[0] + 10.0.0.2 => 0 + 10.0.0.2
# 80 -> R1 => 80 -> FD[1] => GD[0] + 80 => 0 + 80
match = ofparser.OFPMatch(state=0,
in_port=INTERNET_PORT,
metadata=(0, 0x000000001),
eth_type=0x0800,
ip_proto=6)
actions = [
bebaparser.OFPExpActionSetState(state=1, table_id=3),
ofparser.OFPActionSetField(ipv4_dst='10.0.0.2'),
ofparser.OFPActionSetField(tcp_dst=80),
# tolto per test
bebaparser.OFPExpActionSetDataVariable(table_id=3,
opcode=bebaproto.OPCODE_SUM,
output_fd_id=0,
operand_1_gd_id=1,
operand_2_cost=0),
bebaparser.OFPExpActionSetDataVariable(table_id=3,
opcode=bebaproto.OPCODE_SUM,
output_fd_id=1,
operand_1_gd_id=0,
operand_2_cost=80)
]
inst = [
ofparser.OFPInstructionActions(ofproto.OFPIT_APPLY_ACTIONS,
actions),
ofparser.OFPInstructionGotoTable(4)
]
mod = ofparser.OFPFlowMod(datapath=datapath,
table_id=3,
priority=100,
match=match,
instructions=inst)
datapath.send_msg(mod)
# Line 1
# ip.dst = 10.0.0.3
# tcp.dst = 80
# 10.0.0.3 -> R0 => 10.0.0.3 -> FD[0] => FD[0] = GD[0] + 10.0.0.3 => 0 + 10.0.0.3
# 80 -> R1 => 80 -> FD[1] => GD[0] + 80 => 0 + 80
match = ofparser.OFPMatch(state=0,
in_port=INTERNET_PORT,
metadata=(1, 0x000000001),
eth_type=0x0800,
ip_proto=6)
actions = [
bebaparser.OFPExpActionSetState(state=1, table_id=3),
ofparser.OFPActionSetField(ipv4_dst='10.0.0.3'),
ofparser.OFPActionSetField(tcp_dst=80),
# tolto per test
bebaparser.OFPExpActionSetDataVariable(table_id=3,
opcode=bebaproto.OPCODE_SUM,
output_fd_id=0,
operand_1_gd_id=2,
operand_2_cost=0),
bebaparser.OFPExpActionSetDataVariable(table_id=3,
opcode=bebaproto.OPCODE_SUM,
output_fd_id=1,
operand_1_gd_id=0,
operand_2_cost=80)
]
inst = [
ofparser.OFPInstructionActions(ofproto.OFPIT_APPLY_ACTIONS,
actions),
ofparser.OFPInstructionGotoTable(4)
]
mod = ofparser.OFPFlowMod(datapath=datapath,
table_id=3,
priority=99,
match=match,
instructions=inst)
datapath.send_msg(mod)
# Line 2
# ip.dst = R0 => IPV4_DST = FD[0]
# tcp.dst = R1 => TCP_DST = FD[1]
match = ofparser.OFPMatch(state=1, in_port=INTERNET_PORT)
actions = [
bebaparser.OFPExpActionWriteContextToField(
src_type=bebaproto.SOURCE_TYPE_FLOW_DATA_VAR,
src_id=0,
dst_field=ofproto.OXM_OF_IPV4_DST),
bebaparser.OFPExpActionWriteContextToField(
src_type=bebaproto.SOURCE_TYPE_FLOW_DATA_VAR,
src_id=1,
dst_field=ofproto.OXM_OF_TCP_DST)
]
inst = [
ofparser.OFPInstructionActions(ofproto.OFPIT_APPLY_ACTIONS,
actions),
ofparser.OFPInstructionGotoTable(4)
]
mod = ofparser.OFPFlowMod(datapath=datapath,
table_id=3,
priority=98,
match=match,
instructions=inst)
datapath.send_msg(mod)
''' ####################### TAB 4 forward '''
# Line 4
match = ofparser.OFPMatch(in_port=LAN_PORT,
eth_type=0x0800,
ipv4_src='10.0.0.2',
ip_proto=6,
tcp_src=80)
actions = [
ofparser.OFPActionSetField(ipv4_src='1.0.0.1'),
ofparser.OFPActionSetField(tcp_src=80),
ofparser.OFPActionSetField(eth_dst="00:00:00:00:00:01"),
ofparser.OFPActionOutput(INTERNET_PORT)
]
self.add_flow(datapath=datapath,
table_id=4,
priority=96,
match=match,
actions=actions)
# Line 5
match = ofparser.OFPMatch(in_port=LAN_PORT,
eth_type=0x0800,
ipv4_src='10.0.0.3',
ip_proto=6,
tcp_src=80)
actions = [
ofparser.OFPActionSetField(ipv4_src='1.0.0.1'),
ofparser.OFPActionSetField(tcp_src=80),
ofparser.OFPActionSetField(eth_dst="00:00:00:00:00:01"),
ofparser.OFPActionOutput(INTERNET_PORT)
]
self.add_flow(datapath=datapath,
table_id=4,
priority=95,
match=match,
actions=actions)
# Line 6
match = ofparser.OFPMatch()
actions = [
ofparser.OFPActionSetField(eth_dst="00:00:00:00:00:01"),
ofparser.OFPActionOutput(INTERNET_PORT)
]
self.add_flow(datapath=datapath,
table_id=4,
priority=94,
match=match,
actions=actions)
def function_lan_dmz_isolation(self, datapath):
""" Set table 0 as stateful """
req = bebaparser.OFPExpMsgConfigureStatefulTable(datapath=datapath,
table_id=0,
stateful=1)
datapath.send_msg(req)
############################### LOOKUP/UPDATE ###################################
""" Tab0 """
""" Set lookup extractor = {BiFlow} """
req = bebaparser.OFPExpMsgKeyExtract(
datapath=datapath,
command=bebaproto.OFPSC_EXP_SET_L_EXTRACTOR,
fields=[
ofproto.OXM_OF_IPV4_SRC, ofproto.OXM_OF_IPV4_DST,
ofproto.OXM_OF_TCP_SRC, ofproto.OXM_OF_TCP_DST
],
table_id=0,
biflow=1)
datapath.send_msg(req)
""" Set lookup extractor = {BiFlow} """
req = bebaparser.OFPExpMsgKeyExtract(
datapath=datapath,
command=bebaproto.OFPSC_EXP_SET_U_EXTRACTOR,
fields=[
ofproto.OXM_OF_IPV4_SRC, ofproto.OXM_OF_IPV4_DST,
ofproto.OXM_OF_TCP_SRC, ofproto.OXM_OF_TCP_DST
],
table_id=0,
biflow=1)
datapath.send_msg(req)
""" Tab4 """
""" Stateless """
########################### SET GD DATA VARIABLE TAB 0 ############################################
''' GD[0] = 0'''
req = bebaparser.OFPExpMsgsSetGlobalDataVariable(
datapath=datapath, table_id=0, global_data_variable_id=0, value=0)
datapath.send_msg(req)
''' GD[1] = 0 '''
req = bebaparser.OFPExpMsgsSetGlobalDataVariable(
datapath=datapath, table_id=0, global_data_variable_id=0, value=0)
datapath.send_msg(req)
################################# REGOLE ############################################
match = ofparser.OFPMatch(eth_type=0x0806)
actions = [ofparser.OFPActionOutput(ofproto.OFPP_FLOOD)]
inst = [
ofparser.OFPInstructionActions(ofproto.OFPIT_APPLY_ACTIONS,
actions)
]
mod = ofparser.OFPFlowMod(datapath=datapath,
table_id=0,
priority=100,
match=match,
instructions=inst)
datapath.send_msg(mod)
''' ####################### TAB 0 '''
# Line 0
match = ofparser.OFPMatch(state=0,
in_port=DMZ_PORT,
eth_type=0x0800,
ipv4_dst=('10.0.0.0', '255.255.255.0'))
actions = [bebaparser.OFPExpActionSetState(state=11, table_id=0)]
inst = [
ofparser.OFPInstructionActions(ofproto.OFPIT_APPLY_ACTIONS,
actions),
ofparser.OFPInstructionWriteMetadata(metadata=0,
metadata_mask=0xFFFFFFFF),
ofparser.OFPInstructionGotoTable(4)
]
mod = ofparser.OFPFlowMod(datapath=datapath,
table_id=0,
priority=100,
match=match,
instructions=inst)
datapath.send_msg(mod)
# Line 1
match = ofparser.OFPMatch(state=0,
in_port=LAN_PORT,
eth_type=0x0800,
ipv4_dst=('8.0.0.0', '255.255.255.0'))
actions = [bebaparser.OFPExpActionSetState(state=12, table_id=0)]
inst = [
ofparser.OFPInstructionActions(ofproto.OFPIT_APPLY_ACTIONS,
actions),
ofparser.OFPInstructionWriteMetadata(metadata=0,
metadata_mask=0xFFFFFFFF),
ofparser.OFPInstructionGotoTable(4)
]
mod = ofparser.OFPFlowMod(datapath=datapath,
table_id=0,
priority=99,
match=match,
instructions=inst)
datapath.send_msg(mod)
# Line 2
match = ofparser.OFPMatch(state=11,
in_port=DMZ_PORT,
eth_type=0x0800,
ipv4_dst=('10.0.0.0', '255.255.255.0'))
actions = []
inst = [
ofparser.OFPInstructionActions(ofproto.OFPIT_APPLY_ACTIONS,
actions),
ofparser.OFPInstructionWriteMetadata(metadata=0,
metadata_mask=0xFFFFFFFF),
ofparser.OFPInstructionGotoTable(4)
]
mod = ofparser.OFPFlowMod(datapath=datapath,
table_id=0,
priority=98,
match=match,
instructions=inst)
datapath.send_msg(mod)
# Line 3
match = ofparser.OFPMatch(state=11,
in_port=LAN_PORT,
eth_type=0x0800,
ipv4_dst=('8.0.0.0', '255.255.255.0'))
actions = [bebaparser.OFPExpActionSetState(state=2, table_id=0)]
inst = [
ofparser.OFPInstructionActions(ofproto.OFPIT_APPLY_ACTIONS,
actions),
ofparser.OFPInstructionWriteMetadata(metadata=1,
metadata_mask=0xFFFFFFFF),
ofparser.OFPInstructionGotoTable(4)
]
mod = ofparser.OFPFlowMod(datapath=datapath,
table_id=0,
priority=97,
match=match,
instructions=inst)
datapath.send_msg(mod)
# Line 4
match = ofparser.OFPMatch(state=12,
in_port=LAN_PORT,
eth_type=0x0800,
ipv4_dst=('8.0.0.0', '255.255.255.0'))
actions = []
inst = [
ofparser.OFPInstructionActions(ofproto.OFPIT_APPLY_ACTIONS,
actions),
ofparser.OFPInstructionWriteMetadata(metadata=0,
metadata_mask=0xFFFFFFFF),
ofparser.OFPInstructionGotoTable(4)
]
mod = ofparser.OFPFlowMod(datapath=datapath,
table_id=0,
priority=96,
match=match,
instructions=inst)
datapath.send_msg(mod)
# Line 5
match = ofparser.OFPMatch(state=12,
in_port=DMZ_PORT,
eth_type=0x0800,
ipv4_dst=('10.0.0.0', '255.255.255.0'))
actions = [bebaparser.OFPExpActionSetState(state=2, table_id=0)]
inst = [
ofparser.OFPInstructionActions(ofproto.OFPIT_APPLY_ACTIONS,
actions),
ofparser.OFPInstructionWriteMetadata(metadata=1,
metadata_mask=0xFFFFFFFF),
ofparser.OFPInstructionGotoTable(4)
]
mod = ofparser.OFPFlowMod(datapath=datapath,
table_id=0,
priority=95,
match=match,
instructions=inst)
datapath.send_msg(mod)
# Line 6
match = ofparser.OFPMatch(state=2)
actions = []
inst = [
ofparser.OFPInstructionActions(ofproto.OFPIT_APPLY_ACTIONS,
actions),
ofparser.OFPInstructionWriteMetadata(metadata=1,
metadata_mask=0xFFFFFFFF),
ofparser.OFPInstructionGotoTable(4)
]
mod = ofparser.OFPFlowMod(datapath=datapath,
table_id=0,
priority=94,
match=match,
instructions=inst)
datapath.send_msg(mod)
''' ####################### TAB 1 '''
# NOT USED IN THIS USE CASE
''' ####################### TAB 2 restore'''
# NOT USED IN THIS USE CASE
''' ####################### TAB 3 translate '''
# NOT USED IN THIS USE CASE
''' ####################### TAB 4 forward '''
# Line 0
match = ofparser.OFPMatch(in_port=DMZ_PORT,
metadata=(0, 0x00000000F),
eth_type=0x0800,
ipv4_dst=('10.0.0.0', '255.255.255.0'))
actions = []
self.add_flow(datapath=datapath,
table_id=4,
priority=100,
match=match,
actions=actions)
# Line 1
match = ofparser.OFPMatch(in_port=DMZ_PORT,
metadata=(1, 0x00000000F),
eth_type=0x0800,
ipv4_dst='10.0.0.2')
actions = [
ofparser.OFPActionSetField(eth_dst="00:00:00:00:00:03"),
ofparser.OFPActionOutput(LAN_PORT)
]
self.add_flow(datapath=datapath,
table_id=4,
priority=99,
match=match,
actions=actions)
# Line 1 BIS
match = ofparser.OFPMatch(in_port=DMZ_PORT,
metadata=(1, 0x00000000F),
eth_type=0x0800,
ipv4_dst='10.0.0.3')
actions = [
ofparser.OFPActionSetField(eth_dst="00:00:00:00:00:04"),
ofparser.OFPActionOutput(LAN_PORT)
]
self.add_flow(datapath=datapath,
table_id=4,
priority=99,
match=match,
actions=actions)
# Line 2
match = ofparser.OFPMatch(eth_type=0x0800, ipv4_dst='8.0.0.2')
actions = [
ofparser.OFPActionSetField(eth_dst="00:00:00:00:00:02"),
ofparser.OFPActionOutput(DMZ_PORT)
]
self.add_flow(datapath=datapath,
table_id=4,
priority=98,
match=match,
actions=actions)
# Line 3
match = ofparser.OFPMatch(eth_type=0x0800, ipv4_dst='10.0.0.2')
actions = [
ofparser.OFPActionSetField(eth_dst="00:00:00:00:00:03"),
ofparser.OFPActionOutput(LAN_PORT)
]
self.add_flow(datapath=datapath,
table_id=4,
priority=97,
match=match,
actions=actions)
# Line 3 BIS
match = ofparser.OFPMatch(eth_type=0x0800, ipv4_dst='10.0.0.3')
actions = [
ofparser.OFPActionSetField(eth_dst="00:00:00:00:00:04"),
ofparser.OFPActionOutput(LAN_PORT)
]
self.add_flow(datapath=datapath,
table_id=4,
priority=97,
match=match,
actions=actions)
def install_spines(self, datapath):
######################### TABLE 1 CONFIG ###############
req = bebaparser.OFPExpMsgConfigureStatefulTable(datapath=datapath,
table_id=0,
stateful=1)
datapath.send_msg(req)
""" Set lookup extractor = {eth_dst} """
req = bebaparser.OFPExpMsgKeyExtract(
datapath=datapath,
command=bebaproto.OFPSC_EXP_SET_L_EXTRACTOR,
fields=[ofproto.OXM_OF_IN_PORT],
table_id=0)
datapath.send_msg(req)
""" Set update extractor = {eth_dst} """
req = bebaparser.OFPExpMsgKeyExtract(
datapath=datapath,
command=bebaproto.OFPSC_EXP_SET_U_EXTRACTOR,
fields=[ofproto.OXM_OF_IN_PORT],
table_id=0)
datapath.send_msg(req)
# mpls extractor
req = bebaparser.OFPExpMsgHeaderFieldExtract(
datapath=datapath,
table_id=0,
extractor_id=0,
field=ofproto.OXM_OF_MPLS_LABEL)
datapath.send_msg(req)
# timestamp extractor
req = bebaparser.OFPExpMsgHeaderFieldExtract(
datapath=datapath,
table_id=0,
extractor_id=1,
field=bebaproto.OXM_EXP_TIMESTAMP)
datapath.send_msg(req)
# packet length extractor
req = bebaparser.OFPExpMsgHeaderFieldExtract(
datapath=datapath,
table_id=0,
extractor_id=2,
field=bebaproto.OXM_EXP_PKT_LEN)
datapath.send_msg(req)
req = bebaparser.OFPExpMsgSetCondition(
datapath=datapath,
condition=bebaproto.CONDITION_GTE,
condition_id=0,
table_id=0,
operand_1_hf_id=1,
operand_2_fd_id=4)
datapath.send_msg(req)
########################### TABLE 1: MEASURING #####################
for i in LEAVES:
if i == 1:
out_ports = [2, 3]
elif i == 2:
out_ports = [1, 3]
elif i == 3:
out_ports = [1, 2]
buckets = []
actions = [
bebaparser.OFPExpActionWriteContextToField(
src_type=bebaproto.SOURCE_TYPE_GLOBAL_DATA_VAR,
src_id=4,
dst_field=ofproto.OXM_OF_MPLS_LABEL),
ofparser.OFPActionOutput(out_ports[0])
]
buckets.append(ofparser.OFPBucket(actions=actions))
actions = [
bebaparser.OFPExpActionWriteContextToField(
src_type=bebaproto.SOURCE_TYPE_GLOBAL_DATA_VAR,
src_id=5,
dst_field=ofproto.OXM_OF_MPLS_LABEL),
ofparser.OFPActionOutput(out_ports[1])
]
buckets.append(ofparser.OFPBucket(actions=actions))
# send the group action
req = ofparser.OFPGroupMod(datapath=datapath,
type_=ofproto.OFPGT_ALL,
group_id=i,
buckets=buckets)
datapath.send_msg(req)
match = ofparser.OFPMatch(in_port=i, eth_type=0x8847)
actions = [
bebaparser.OFPExpActionSetDataVariable(
table_id=0,
opcode=bebaproto.OPCODE_SUM,
output_gd_id=4,
operand_1_hf_id=0,
operand_2_gd_id=out_ports[0]),
bebaparser.OFPExpActionSetDataVariable(
table_id=0,
opcode=bebaproto.OPCODE_SUM,
output_gd_id=5,
operand_1_hf_id=0,
operand_2_gd_id=out_ports[1]),
ofparser.OFPActionGroup(i)
]
self.add_flow(datapath=datapath,
priority=600,
table_id=0,
match=match,
actions=actions)
# first packet of a flow
match = ofparser.OFPMatch(state=0, in_port=i)
actions = [
bebaparser.OFPExpActionSetState(table_id=0,
state=1,
idle_timeout=2),
# saves timestamp
bebaparser.OFPExpActionSetDataVariable(
table_id=0,
opcode=bebaproto.OPCODE_SUM,
output_fd_id=4,
operand_1_hf_id=1,
operand_2_cost=PROBE_FREQ)
]
insts = [
ofparser.OFPInstructionActions(ofproto.OFPIT_APPLY_ACTIONS,
actions),
ofparser.OFPInstructionGotoTable(1)
]
mod = ofparser.OFPFlowMod(datapath=datapath,
table_id=0,
priority=500,
match=match,
instructions=insts)
datapath.send_msg(mod)
# simple forwarding packets go to second table to forward
match = ofparser.OFPMatch(state=1, in_port=i, condition0=1)
actions = [ # calculates deltaT: FDV[1]=HF[1]-FDV[0]=TS_NOW - TS_LAST
bebaparser.OFPExpActionSetDataVariable(
table_id=0,
opcode=bebaproto.OPCODE_SUB,
output_fd_id=1,
operand_1_hf_id=1,
operand_2_fd_id=0),
# calculates rate: R = (bytes / deltaT_ms) * 8 [kb/s]
bebaparser.OFPExpActionSetDataVariable(
table_id=0,
opcode=bebaproto.OPCODE_MUL,
output_fd_id=2,
operand_1_fd_id=2,
operand_2_cost=8),
# stores the result in FDV[3]: THE FLOW ESTIMATED RATE
bebaparser.OFPExpActionSetDataVariable(
table_id=0,
opcode=bebaproto.OPCODE_DIV,
output_fd_id=2,
operand_1_fd_id=2,
operand_2_fd_id=1),
# calculates ewma
bebaparser.OFPExpActionSetDataVariable(
table_id=0,
opcode=bebaproto.OPCODE_EWMA,
output_fd_id=3,
operand_1_fd_id=3,
operand_2_cost=ALPHA,
operand_3_fd_id=2),
# saves current timestamp
bebaparser.OFPExpActionSetDataVariable(
table_id=0,
opcode=bebaproto.OPCODE_SUM,
output_fd_id=0,
operand_1_hf_id=1,
operand_2_cost=0),
# saves timestamp + probe freq
bebaparser.OFPExpActionSetDataVariable(
table_id=0,
opcode=bebaproto.OPCODE_SUM,
output_fd_id=4,
operand_1_hf_id=1,
operand_2_cost=PROBE_FREQ),
# reset byte counter
bebaparser.OFPExpActionSetDataVariable(
table_id=0,
opcode=bebaproto.OPCODE_SUB,
output_fd_id=2,
operand_1_fd_id=2,
operand_2_fd_id=2),
# saves in GDV[i] the ewma
bebaparser.OFPExpActionSetDataVariable(
table_id=0,
opcode=bebaproto.OPCODE_SUM,
output_gd_id=i,
operand_1_fd_id=3,
operand_2_cost=0)
]
instructions = [
ofparser.OFPInstructionActions(ofproto.OFPIT_APPLY_ACTIONS,
actions),
ofparser.OFPInstructionGotoTable(1)
]
mod = ofparser.OFPFlowMod(datapath=datapath,
priority=0,
table_id=0,
match=match,
instructions=instructions)
datapath.send_msg(mod)
match = ofparser.OFPMatch(state=1, in_port=i, condition0=0)
actions = [
bebaparser.OFPExpActionSetDataVariable(
table_id=0,
opcode=bebaproto.OPCODE_SUM,
output_fd_id=2,
operand_1_fd_id=2,
operand_2_hf_id=2)
]
instructions = [
ofparser.OFPInstructionActions(ofproto.OFPIT_APPLY_ACTIONS,
actions),
ofparser.OFPInstructionGotoTable(1)
]
mod = ofparser.OFPFlowMod(datapath=datapath,
priority=0,
table_id=0,
match=match,
instructions=instructions)
datapath.send_msg(mod)
######################## TABLE 2: FORWARDING ################
for i in LEAVES:
match = ofparser.OFPMatch(eth_dst=MAC_ADDRS[i - 1])
actions = [ofparser.OFPActionOutput(i)]
self.add_flow(datapath=datapath,
table_id=1,
priority=0,
match=match,
actions=actions)
def install_leaves(self, datapath):
# Send probe packet to packet generation table
req = bebaparser.OFPExpMsgAddPktTmp(datapath=datapath,
pkttmp_id=0,
pkt_data=pkt_raw)
datapath.send_msg(req)
##################################### TABLE 0: DISPATCHING ##################################################
######################### TABLE 0 CONFIG ###############
req = bebaparser.OFPExpMsgConfigureStatefulTable(datapath=datapath,
table_id=0,
stateful=1)
datapath.send_msg(req)
""" Set lookup extractor = {eth_dst} """
req = bebaparser.OFPExpMsgKeyExtract(
datapath=datapath,
command=bebaproto.OFPSC_EXP_SET_L_EXTRACTOR,
fields=[ofproto.OXM_OF_IN_PORT],
table_id=0)
datapath.send_msg(req)
""" Set update extractor = {eth_dst} """
req = bebaparser.OFPExpMsgKeyExtract(
datapath=datapath,
command=bebaproto.OFPSC_EXP_SET_U_EXTRACTOR,
fields=[ofproto.OXM_OF_IN_PORT],
table_id=0)
datapath.send_msg(req)
""" Field extractor for mpls label """
req = bebaparser.OFPExpMsgHeaderFieldExtract(
datapath=datapath,
table_id=0,
extractor_id=0,
field=ofproto.OXM_OF_MPLS_LABEL)
datapath.send_msg(req)
""" Field extractor for timestamp """
req = bebaparser.OFPExpMsgHeaderFieldExtract(
datapath=datapath,
table_id=0,
extractor_id=1,
field=bebaproto.OXM_EXP_TIMESTAMP)
datapath.send_msg(req)
""" Packet counter_max for designing probe frequency """
req = bebaparser.OFPExpMsgsSetGlobalDataVariable(
datapath=datapath,
table_id=0,
global_data_variable_id=0,
value=PROBE_FREQ)
datapath.send_msg(req)
""" Condition C0: if counter reaches counter_max, then trigger probe sending """
req = bebaparser.OFPExpMsgSetCondition(
datapath=datapath,
table_id=0,
condition_id=0,
condition=bebaproto.CONDITION_GTE,
operand_1_fd_id=0,
operand_2_gd_id=0)
datapath.send_msg(req)
req = bebaparser.OFPExpMsgSetCondition(
datapath=datapath,
table_id=0,
condition_id=3,
condition=bebaproto.CONDITION_GTE,
operand_1_fd_id=0,
operand_2_gd_id=0)
datapath.send_msg(req)
##################################### TABLE 0 FLOWS ##################################################
""" RECEIVE PROBE ACTION """
""" When a probe is received tab0 sends it to tab3"""
""" match: MPLS """
""" no action """
""" instruction: goto tab3"""
match = ofparser.OFPMatch(eth_type=0x8847)
instructions = [ofparser.OFPInstructionGotoTable(3)]
mod = ofparser.OFPFlowMod(datapath=datapath,
table_id=0,
priority=200,
match=match,
instructions=instructions)
datapath.send_msg(mod)
""" For packets from down ports (attached to hosts): go to ToR Discovery table (1) """
for i in DOWN_PORTS:
match = ofparser.OFPMatch(in_port=i)
instructions = [ofparser.OFPInstructionGotoTable(1)]
mod = ofparser.OFPFlowMod(datapath=datapath,
table_id=0,
priority=10,
match=match,
instructions=instructions)
datapath.send_msg(mod)
match = ofparser.OFPMatch()
instructions = [ofparser.OFPInstructionGotoTable(2)]
mod = ofparser.OFPFlowMod(datapath=datapath,
table_id=0,
priority=0,
match=match,
instructions=instructions)
datapath.send_msg(mod)
# using low bitrate flows to refresh the estimates. For testing purposes only
for i in [0, 1]:
match = ofparser.OFPMatch(in_port=3,
eth_type=0x0800,
ip_proto=6,
tcp_dst=10000 + i)
actions = [ofparser.OFPActionOutput(i + 1)]
self.add_flow(datapath=datapath,
table_id=0,
priority=200,
match=match,
actions=actions)
match = ofparser.OFPMatch(in_port=3,
eth_type=0x0800,
ip_proto=6,
tcp_src=10000 + i)
actions = [ofparser.OFPActionOutput(i + 1)]
self.add_flow(datapath=datapath,
table_id=0,
priority=200,
match=match,
actions=actions)
######################## TABLE 1 ToR DISCOVERY #########################################################
# this cycle writes metadata specifying to which leaf belongs the packet
for i in LEAVES:
if i != datapath.id:
match = ofparser.OFPMatch(eth_dst=MAC_ADDRS[i - 1])
instructions = [
ofparser.OFPInstructionWriteMetadata(
metadata=i, metadata_mask=0xffffffff),
ofparser.OFPInstructionGotoTable(3)
]
mod = ofparser.OFPFlowMod(datapath=datapath,
table_id=1,
priority=0,
match=match,
instructions=instructions)
datapath.send_msg(mod)
######################### TABLE 2: ACTIVE PROBING ######################################################
################### TABLE 2 CONFIG #########
req = bebaparser.OFPExpMsgConfigureStatefulTable(datapath=datapath,
table_id=2,
stateful=1)
datapath.send_msg(req)
""" Set lookup extractor = {IN_PORT} """
req = bebaparser.OFPExpMsgKeyExtract(
datapath=datapath,
command=bebaproto.OFPSC_EXP_SET_L_EXTRACTOR,
fields=[ofproto.OXM_OF_IN_PORT],
table_id=2)
datapath.send_msg(req)
""" Set update extractor = {IN_PORT} """
req = bebaparser.OFPExpMsgKeyExtract(
datapath=datapath,
command=bebaproto.OFPSC_EXP_SET_U_EXTRACTOR,
fields=[ofproto.OXM_OF_IN_PORT],
table_id=2)
datapath.send_msg(req)
req = bebaparser.OFPExpMsgHeaderFieldExtract(
datapath=datapath,
table_id=2,
extractor_id=1,
field=bebaproto.OXM_EXP_TIMESTAMP)
datapath.send_msg(req)
req = bebaparser.OFPExpMsgHeaderFieldExtract(
datapath=datapath,
table_id=2,
extractor_id=2,
field=bebaproto.OXM_EXP_PKT_LEN)
datapath.send_msg(req)
req = bebaparser.OFPExpMsgSetCondition(
datapath=datapath,
condition=bebaproto.CONDITION_GTE,
condition_id=0,
table_id=2,
operand_1_hf_id=1,
operand_2_fd_id=4)
datapath.send_msg(req)
############################### TABLE 2 FLOWS #############################
match = ofparser.OFPMatch(state=0)
actions = [
bebaparser.OFPExpActionSetState(table_id=2,
state=1,
idle_timeout=2),
# saves timestamp
bebaparser.OFPExpActionSetDataVariable(table_id=2,
opcode=bebaproto.OPCODE_SUM,
output_fd_id=4,
operand_1_hf_id=1,
operand_2_cost=PROBE_FREQ),
ofparser.OFPActionOutput(3)
]
self.add_flow(datapath=datapath,
table_id=2,
priority=500,
match=match,
actions=actions)
""" For every packet coming from spine ports, calculates ewma """
for i in UPPER_PORTS:
# simply ewma measuring
match = ofparser.OFPMatch(state=1, in_port=i, condition0=1)
actions_ewma_1 = [ # calculates deltaT: FDV[1]=HF[1]-FDV[0]=TS_NOW - TS_LAST
bebaparser.OFPExpActionSetDataVariable(
table_id=2,
opcode=bebaproto.OPCODE_SUB,
output_fd_id=1,
operand_1_hf_id=1,
operand_2_fd_id=0),
# calculates rate: R = (bytes / deltaT_ms) * 8 [kb/s]
bebaparser.OFPExpActionSetDataVariable(
table_id=2,
opcode=bebaproto.OPCODE_MUL,
output_fd_id=2,
operand_1_fd_id=2,
operand_2_cost=8),
# stores the result in FDV[3]: THE FLOW ESTIMATED RATE
bebaparser.OFPExpActionSetDataVariable(
table_id=2,
opcode=bebaproto.OPCODE_DIV,
output_fd_id=2,
operand_1_fd_id=2,
operand_2_fd_id=1),
# calculates ewma
bebaparser.OFPExpActionSetDataVariable(
table_id=2,
opcode=bebaproto.OPCODE_EWMA,
output_fd_id=3,
operand_1_fd_id=3,
operand_2_cost=ALPHA,
operand_3_fd_id=2),
# saves current timestamp
bebaparser.OFPExpActionSetDataVariable(
table_id=2,
opcode=bebaproto.OPCODE_SUM,
output_fd_id=0,
operand_1_hf_id=1,
operand_2_cost=0),
# saves timestamp + probe freq
bebaparser.OFPExpActionSetDataVariable(
table_id=2,
opcode=bebaproto.OPCODE_SUM,
output_fd_id=4,
operand_1_hf_id=1,
operand_2_cost=PROBE_FREQ),
# reset byte counter
bebaparser.OFPExpActionSetDataVariable(
table_id=2,
opcode=bebaproto.OPCODE_SUB,
output_fd_id=2,
operand_1_fd_id=2,
operand_2_fd_id=2),
# saves in GDV[i] the ewma
bebaparser.OFPExpActionSetDataVariable(
table_id=2,
opcode=bebaproto.OPCODE_SUM,
output_gd_id=i,
operand_1_fd_id=3,
operand_2_cost=0)
]
# actions for the packet
actions = actions_ewma_1 + [ofparser.OFPActionOutput(3)]
# action group for the probes
probe_actions1 = [
ofparser.OFPActionSetField(mpls_tc=datapath.id), # the GDV[i]
bebaparser.OFPExpActionWriteContextToField(
src_type=bebaproto.SOURCE_TYPE_GLOBAL_DATA_VAR,
src_id=i,
dst_field=ofproto.OXM_OF_MPLS_LABEL),
ofparser.OFPActionOutput(i)
]
probe_actions2 = [
ofparser.OFPActionSetField(
mpls_tc=datapath.id), # the GDV[other]
bebaparser.OFPExpActionWriteContextToField(
src_type=bebaproto.SOURCE_TYPE_GLOBAL_DATA_VAR,
src_id=(1 if i == 2 else 2),
dst_field=ofproto.OXM_OF_MPLS_LABEL),
ofparser.OFPActionOutput((1 if i == 2 else 2))
]
# apply packet actions
insts = [
ofparser.OFPInstructionActions(ofproto.OFPIT_APPLY_ACTIONS,
actions),
# apply packet generation
bebaparser.OFPInstructionInSwitchPktGen(
pkttmp_id=0, actions=probe_actions1),
bebaparser.OFPInstructionInSwitchPktGen(pkttmp_id=0,
actions=probe_actions2)
]
mod = ofparser.OFPFlowMod(datapath=datapath,
table_id=2,
priority=30,
match=match,
instructions=insts)
datapath.send_msg(mod)
match = ofparser.OFPMatch(state=1, in_port=i, condition0=0)
actions_ewma_2 = [
bebaparser.OFPExpActionSetDataVariable(
table_id=2,
opcode=bebaproto.OPCODE_SUM,
output_fd_id=2,
operand_1_fd_id=2,
operand_2_hf_id=2)
]
self.add_flow(datapath=datapath,
table_id=2,
priority=30,
match=match,
actions=actions_ewma_2 +
[ofparser.OFPActionOutput(3)])
# using low bitrate flows to refresh the estimates. For testing purposes only
for j in [0, 1]:
match = ofparser.OFPMatch(in_port=i,
eth_type=0x0800,
ip_proto=6,
tcp_dst=10000 + j,
condition0=1)
actions = actions_ewma_1 + [ofparser.OFPActionOutput(3)]
self.add_flow(datapath=datapath,
table_id=2,
priority=150,
match=match,
actions=actions)
match = ofparser.OFPMatch(in_port=i,
eth_type=0x0800,
ip_proto=6,
tcp_src=10000 + j,
condition0=1)
actions = actions_ewma_1 + [ofparser.OFPActionOutput(3)]
self.add_flow(datapath=datapath,
table_id=2,
priority=150,
match=match,
actions=actions)
match = ofparser.OFPMatch(in_port=i,
eth_type=0x0800,
ip_proto=6,
tcp_dst=10000 + j,
condition0=0)
actions = actions_ewma_2 + [ofparser.OFPActionOutput(3)]
self.add_flow(datapath=datapath,
table_id=2,
priority=150,
match=match,
actions=actions)
match = ofparser.OFPMatch(in_port=i,
eth_type=0x0800,
ip_proto=6,
tcp_src=10000 + j,
condition0=0)
actions = actions_ewma_2 + [ofparser.OFPActionOutput(3)]
self.add_flow(datapath=datapath,
table_id=2,
priority=150,
match=match,
actions=actions)
######################## TABLE 3: FORWARDING ##############################################################
######################## TABLE 3 CONFIG #####################################################################
##### GDV[1] contains path utilization to dest 1 on port 1
##### GDV[2] contains path utilization to dest 2 on port 1
##### GDV[3] contains path utilization to dest 1 on port 2
##### GDV[4] contains path utilization to dest 2 on port 2
req = bebaparser.OFPExpMsgConfigureStatefulTable(datapath=datapath,
table_id=3,
stateful=1)
datapath.send_msg(req)
""" Set lookup extractor """
req = bebaparser.OFPExpMsgKeyExtract(
datapath=datapath,
command=bebaproto.OFPSC_EXP_SET_L_EXTRACTOR,
fields=[
ofproto.OXM_OF_IPV4_SRC, ofproto.OXM_OF_IPV4_DST,
ofproto.OXM_OF_TCP_SRC, ofproto.OXM_OF_TCP_DST
],
table_id=3)
datapath.send_msg(req)
""" Set update extractor """
req = bebaparser.OFPExpMsgKeyExtract(
datapath=datapath,
command=bebaproto.OFPSC_EXP_SET_U_EXTRACTOR,
fields=[
ofproto.OXM_OF_IPV4_SRC, ofproto.OXM_OF_IPV4_DST,
ofproto.OXM_OF_TCP_SRC, ofproto.OXM_OF_TCP_DST
],
table_id=3)
datapath.send_msg(req)
req = bebaparser.OFPExpMsgHeaderFieldExtract(
datapath=datapath,
table_id=3,
extractor_id=0,
field=ofproto.OXM_OF_MPLS_LABEL)
datapath.send_msg(req)
req = bebaparser.OFPExpMsgHeaderFieldExtract(
datapath=datapath,
table_id=3,
extractor_id=1,
field=bebaproto.OXM_EXP_TIMESTAMP)
datapath.send_msg(req)
req = bebaparser.OFPExpMsgHeaderFieldExtract(
datapath=datapath,
table_id=3,
extractor_id=2,
field=bebaproto.OXM_EXP_PKT_LEN)
datapath.send_msg(req)
#################################### TABLE 3 FLOWS ###################################
# many conditions as the number of LEAVES-1
# for i in LEAVES except datapath.id: create condition[i]
# in case of 2 Spines
for destLeaf in [1, 2]:
# C[destLeaf]: in which port there is less utilization for that destination?
req = bebaparser.OFPExpMsgSetCondition(
datapath=datapath,
condition=bebaproto.CONDITION_LTE,
condition_id=destLeaf,
table_id=3,
operand_1_gd_id=destLeaf,
operand_2_gd_id=destLeaf + 2)
datapath.send_msg(req)
# leaf number dependent flows
if datapath.id == 1:
# LEAF 1 new flows: fetch the destination leaf and check the appropriate condition
match1true = ofparser.OFPMatch(metadata=2, condition1=1,
state=0) # dst=2, port 1
match2true = ofparser.OFPMatch(metadata=3, condition2=1,
state=0) # dst=3, port 1
match1false = ofparser.OFPMatch(metadata=2, condition1=0,
state=0) # dst=2, port 2
match2false = ofparser.OFPMatch(metadata=3, condition2=0,
state=0) # dst=3, port 2
elif datapath.id == 2:
# LEAF 2 new flows: fetch the destination leaf and check the appropriate condition
match1true = ofparser.OFPMatch(metadata=1, condition1=1,
state=0) # dst=1, port 1
match2true = ofparser.OFPMatch(metadata=3, condition2=1,
state=0) # dst=3, port 1
match1false = ofparser.OFPMatch(metadata=1, condition1=0,
state=0) # dst=1, port 2
match2false = ofparser.OFPMatch(metadata=3, condition2=0,
state=0) # dst=3, port 2
elif datapath.id == 3:
# LEAF 3 new flows: fetch the destination leaf and check the appropriate condition
match1true = ofparser.OFPMatch(metadata=1, condition1=1,
state=0) # dst=1, port 1
match2true = ofparser.OFPMatch(metadata=2, condition2=1,
state=0) # dst=2, port 1
match1false = ofparser.OFPMatch(metadata=1, condition1=0,
state=0) # dst=1, port 2
match2false = ofparser.OFPMatch(metadata=2, condition2=0,
state=0) # dst=2, port 2
# if port 1 is better, set_state(1) and output 1
actions_true = [
bebaparser.OFPExpActionSetState(state=1,
table_id=3,
idle_timeout=RTT),
ofparser.OFPActionOutput(1)
]
# if port 2 is better, set_state(2) and output 2
actions_false = [
bebaparser.OFPExpActionSetState(state=2,
table_id=3,
idle_timeout=RTT),
ofparser.OFPActionOutput(2)
]
self.add_flow(datapath=datapath,
table_id=3,
priority=20,
match=match1true,
actions=actions_true)
self.add_flow(datapath=datapath,
table_id=3,
priority=20,
match=match2true,
actions=actions_true)
self.add_flow(datapath=datapath,
table_id=3,
priority=20,
match=match1false,
actions=actions_false)
self.add_flow(datapath=datapath,
table_id=3,
priority=20,
match=match2false,
actions=actions_false)
""" extract external probes' data and store in GDVs """
match = ofparser.OFPMatch(eth_type=0x8847, mpls_tc=datapath.id)
self.add_flow(datapath=datapath,
table_id=3,
priority=300,
match=match,
actions=[])
for i in UPPER_PORTS:
for leafNo in LEAVES:
if leafNo != datapath.id:
match = ofparser.OFPMatch(in_port=i,
eth_type=0x8847,
mpls_tc=leafNo)
""" actions: save in GDVs external probes' data """
if datapath.id == 1:
if leafNo == 2:
actions = [
bebaparser.OFPExpActionSetDataVariable(
table_id=3,
opcode=bebaproto.OPCODE_SUM,
output_gd_id=(1 if i == 1 else 3),
operand_1_hf_id=0,
operand_2_cost=0)
]
elif leafNo == 3:
actions = [
bebaparser.OFPExpActionSetDataVariable(
table_id=3,
opcode=bebaproto.OPCODE_SUM,
output_gd_id=(2 if i == 1 else 4),
operand_1_hf_id=0,
operand_2_cost=0)
]
elif datapath.id == 2:
if leafNo == 1:
actions = [
bebaparser.OFPExpActionSetDataVariable(
table_id=3,
opcode=bebaproto.OPCODE_SUM,
output_gd_id=(1 if i == 1 else 3),
operand_1_hf_id=0,
operand_2_cost=0)
]
elif leafNo == 3:
actions = [
bebaparser.OFPExpActionSetDataVariable(
table_id=3,
opcode=bebaproto.OPCODE_SUM,
output_gd_id=(2 if i == 1 else 4),
operand_1_hf_id=0,
operand_2_cost=0)
]
elif datapath.id == 3:
if leafNo == 1:
actions = [
bebaparser.OFPExpActionSetDataVariable(
table_id=3,
opcode=bebaproto.OPCODE_SUM,
output_gd_id=(1 if i == 1 else 3),
operand_1_hf_id=0,
operand_2_cost=0)
]
elif leafNo == 2:
actions = [
bebaparser.OFPExpActionSetDataVariable(
table_id=3,
opcode=bebaproto.OPCODE_SUM,
output_gd_id=(2 if i == 1 else 4),
operand_1_hf_id=0,
operand_2_cost=0)
]
self.add_flow(datapath=datapath,
table_id=3,
priority=200,
match=match,
actions=actions)
for s in UPPER_PORTS:
for metadata in LEAVES:
# normal conditions
match = ofparser.OFPMatch(in_port=3,
state=s,
metadata=metadata) # , condition4=0)
actions = [ofparser.OFPActionOutput(s)]
self.add_flow(datapath=datapath,
table_id=3,
priority=30,
match=match,
actions=actions)
def process_packet(self, datapath, act_state, flags, output_ports,
ch_state_src, idle_to_src, hard_to_src, ch_state_dst,
idle_to_dst, hard_to_dst, priority, count_in):
"""
Match packet - ethernet, TCP protocol, state (parameter), optional
flags (parameter).
"""
if flags == F_DONT_CARE:
match = ofparser.OFPMatch(eth_type=0x0800,
ip_proto=6,
state=act_state)
else:
match = ofparser.OFPMatch(eth_type=0x0800,
ip_proto=6,
state=act_state,
tcp_flags=flags)
"""
Set actions:
- Output ports (parameter - list).
- SetState for both directions (parameters).
"""
actions = []
for port in output_ports:
actions.append(ofparser.OFPActionOutput(port))
if ch_state_src != self.CH_STATE_NONE:
actions.append(
osparser.OFPExpActionSetState(
state=ch_state_src,
table_id=0,
# TODO - TIMEOUTS
idle_timeout=idle_to_src,
hard_timeout=hard_to_src,
bit=0))
if ch_state_dst != self.CH_STATE_NONE:
actions.append(
osparser.OFPExpActionSetState(
state=ch_state_dst,
table_id=0,
# TODO - TIMEOUTS
idle_timeout=idle_to_dst,
hard_timeout=hard_to_dst,
bit=1))
"""
Set instructions:
- Apply previously defined actions.
- Optionally pass packet to table1 for counting.
"""
inst = [
ofparser.OFPInstructionActions(ofp.OFPIT_APPLY_ACTIONS, actions)
]
if count_in:
inst.append(ofparser.OFPInstructionGotoTable(table_id=1))
"""
Prepare and send message.
"""
mod = ofparser.OFPFlowMod(datapath=datapath,
table_id=0,
priority=priority,
match=match,
instructions=inst)
datapath.send_msg(mod)
def load_fsm(self, datapath):
LOG.info("Loading Table 0 normal FSM ...")
##=#=#=#=#=#=#=#=#=#=#=#=#=#=#=#=#=#=#=#=#=#=#=#=#=#=#=#=#=#=#=#=#=#=#=#
## state INIT - ANY
"""
Match a first packet of a new TCP flow (regardless of TCP flags)
"""
match = ofparser.OFPMatch(eth_type=0x0800, ip_proto=6, state=self.INIT)
"""
Forward the packet to the corresponding output interface and create
entries for both directions of given flow in the OPEN state (forward
all consecutive packets).
( TODO - hard-coded output)
"""
actions = [
ofparser.OFPActionOutput(2),
# Create entry for direction of incoming packet
osparser.OFPExpActionSetState(
state=self.OPEN,
table_id=0,
# TODO - TIMEOUTS
idle_timeout=10,
bit=0),
# Create entry for opposite direction since response is expected
osparser.OFPExpActionSetState(
state=self.OPEN,
table_id=0,
# TODO - TIMEOUTS
idle_timeout=10,
bit=1)
]
"""
Apply forward actions and the creation of entries, pass the first packet
to the table1 for the new TCP connections statistics computation.
"""
inst = [
ofparser.OFPInstructionActions(ofp.OFPIT_APPLY_ACTIONS, actions),
ofparser.OFPInstructionGotoTable(table_id=1)
]
mod = ofparser.OFPFlowMod(datapath=datapath,
table_id=0,
priority=100,
match=match,
instructions=inst)
datapath.send_msg(mod)
##=#=#=#=#=#=#=#=#=#=#=#=#=#=#=#=#=#=#=#=#=#=#=#=#=#=#=#=#=#=#=#=#=#=#=#
## state OPEN - ANY
"""
Forward all consecutive packets of already seen flow by matching on
previously created entries.
"""
match = ofparser.OFPMatch(eth_type=0x0800, ip_proto=6, state=self.OPEN)
"""
Just output packet to the corresponding output interface.
( TODO - hard-coded output)
"""
actions = [
ofparser.OFPActionOutput(2),
ofparser.OFPActionOutput(1),
# Refresh timeouts only
osparser.OFPExpActionSetState(
state=self.OPEN,
table_id=0,
# TODO - TIMEOUTS
idle_timeout=10,
bit=0),
# Refresh timeouts only
osparser.OFPExpActionSetState(
state=self.OPEN,
table_id=0,
# TODO - TIMEOUTS
idle_timeout=10,
bit=1)
]
inst = [
ofparser.OFPInstructionActions(ofp.OFPIT_APPLY_ACTIONS, actions)
]
mod = ofparser.OFPFlowMod(datapath=datapath,
table_id=0,
priority=100,
match=match,
instructions=inst)
datapath.send_msg(mod)
LOG.info("Done.")
def install_edge(self, datapath):
""" Table 0 is stateless """
""" Set table 1 as stateful solo per usare GD"""
req = osparser.OFPExpMsgConfigureStatefulTable(datapath=datapath,
table_id=1,
stateful=1)
datapath.send_msg(req)
""" Set table 3 as stateful """
req = osparser.OFPExpMsgConfigureStatefulTable(datapath=datapath,
table_id=3,
stateful=1)
datapath.send_msg(req)
""" Set table 4 as stateful """
req = osparser.OFPExpMsgConfigureStatefulTable(datapath=datapath,
table_id=4,
stateful=1)
datapath.send_msg(req)
""" Set table 5 as stateful """
req = osparser.OFPExpMsgConfigureStatefulTable(datapath=datapath,
table_id=5,
stateful=1)
datapath.send_msg(req)
############################### LOOKUP/UPDATE ################
""" Tab1 """
""" Non mi interessa """
req = osparser.OFPExpMsgKeyExtract(
datapath=datapath,
command=osproto.OFPSC_EXP_SET_L_EXTRACTOR,
fields=[ofproto.OXM_OF_ETH_SRC],
table_id=1)
datapath.send_msg(req)
""" Non mi interessa """
req = osparser.OFPExpMsgKeyExtract(
datapath=datapath,
command=osproto.OFPSC_EXP_SET_U_EXTRACTOR,
fields=[ofproto.OXM_OF_ETH_SRC],
table_id=1)
datapath.send_msg(req)
""" Tab3 """
""" Set lookup extractor = {MPLS_label} """
req = osparser.OFPExpMsgKeyExtract(
datapath=datapath,
command=osproto.OFPSC_EXP_SET_L_EXTRACTOR,
fields=[ofproto.OXM_OF_MPLS_LABEL],
table_id=3)
datapath.send_msg(req)
""" Set update extractor = {MPLS_label} """
req = osparser.OFPExpMsgKeyExtract(
datapath=datapath,
command=osproto.OFPSC_EXP_SET_U_EXTRACTOR,
fields=[ofproto.OXM_OF_MPLS_LABEL],
table_id=3)
datapath.send_msg(req)
""" Tab4 """
""" Set lookup extractor = {MAC_SRC} """
req = osparser.OFPExpMsgKeyExtract(
datapath=datapath,
command=osproto.OFPSC_EXP_SET_L_EXTRACTOR,
fields=[ofproto.OXM_OF_ETH_SRC],
table_id=4)
datapath.send_msg(req)
""" Set update extractor = {MAC_SRC} """
req = osparser.OFPExpMsgKeyExtract(
datapath=datapath,
command=osproto.OFPSC_EXP_SET_U_EXTRACTOR,
fields=[ofproto.OXM_OF_ETH_SRC],
table_id=4)
datapath.send_msg(req)
""" Tab5 """
""" Set lookup extractor = {MAC_DST} """
req = osparser.OFPExpMsgKeyExtract(
datapath=datapath,
command=osproto.OFPSC_EXP_SET_L_EXTRACTOR,
fields=[ofproto.OXM_OF_ETH_DST],
table_id=5)
datapath.send_msg(req)
""" Set update extractor = {MAC_SRC} """
req = osparser.OFPExpMsgKeyExtract(
datapath=datapath,
command=osproto.OFPSC_EXP_SET_U_EXTRACTOR,
fields=[ofproto.OXM_OF_ETH_SRC],
table_id=5)
datapath.send_msg(req)
########################### SET HF GD DATA VARIABLE TAB 1 ############################################
''' GD[0] = datapath.id<<6 + numero crescente'''
req = osparser.OFPExpMsgsSetGlobalDataVariable(
datapath=datapath,
table_id=1,
global_data_variable_id=0,
value=(datapath.id << 6) + 1)
datapath.send_msg(req)
########################### SET HF GD DATA VARIABLE TAB 3 ############################################
''' HF[0] = OXM_OF_MPLS_LABEL [id_pkt] '''
req = osparser.OFPExpMsgHeaderFieldExtract(
datapath=datapath,
table_id=3,
extractor_id=0,
field=ofproto.OXM_OF_MPLS_LABEL)
datapath.send_msg(req)
''' HF[1] = OXM_OF_MPLS_TC [pesoArchi] '''
req = osparser.OFPExpMsgHeaderFieldExtract(
datapath=datapath,
table_id=3,
extractor_id=1,
field=ofproto.OXM_OF_MPLS_TC)
datapath.send_msg(req)
''' GD[0] = 0 '''
req = osparser.OFPExpMsgsSetGlobalDataVariable(
datapath=datapath, table_id=3, global_data_variable_id=0, value=0)
datapath.send_msg(req)
''' GD[1] = datapath.id '''
req = osparser.OFPExpMsgsSetGlobalDataVariable(
datapath=datapath, table_id=3, global_data_variable_id=1, value=0)
datapath.send_msg(req)
########################### SET HF GD DATA VARIABLE TAB 4 ############################################
''' HF[0] = OXM_OF_MPLS_LABEL [id_pkt] '''
req = osparser.OFPExpMsgHeaderFieldExtract(
datapath=datapath,
table_id=4,
extractor_id=0,
field=ofproto.OXM_OF_MPLS_LABEL)
datapath.send_msg(req)
''' HF[1] = OXM_OF_MPLS_TC [pesoArchi] '''
req = osparser.OFPExpMsgHeaderFieldExtract(
datapath=datapath,
table_id=4,
extractor_id=1,
field=ofproto.OXM_OF_MPLS_TC)
datapath.send_msg(req)
''' GD[0] = datapath.id '''
req = osparser.OFPExpMsgsSetGlobalDataVariable(
datapath=datapath, table_id=4, global_data_variable_id=0, value=1)
datapath.send_msg(req)
########################### SET CONDITION TAB 4 ############################################
# condition 0: MPLS_TC <= COSTO MEMORIZZATO (FD[0]) ?
# condition 0: HF[1] <= FD[0] ?
req = osparser.OFPExpMsgSetCondition(datapath=datapath,
table_id=4,
condition_id=0,
condition=osproto.CONDITION_LTE,
operand_1_hf_id=1,
operand_2_fd_id=0)
datapath.send_msg(req)
# condition 1: MPLS_TC <= 1 --> ovvero e il primo hop ?
# condition 1: HF[1] <= GD[0] ?
req = osparser.OFPExpMsgSetCondition(datapath=datapath,
table_id=4,
condition_id=1,
condition=osproto.CONDITION_LTE,
operand_1_hf_id=1,
operand_2_gd_id=0)
datapath.send_msg(req)
''' ####################### TAB 0 PushLabelMPLS '''
# Se il pacchetto proviene da una porta host (HOST_PORT) push label mpls e GOTO Tab 1
match = ofparser.OFPMatch(in_port=HOST_PORT)
actions = [ofparser.OFPActionPushMpls()]
inst = [
ofparser.OFPInstructionActions(ofproto.OFPIT_APPLY_ACTIONS,
actions),
ofparser.OFPInstructionGotoTable(1)
]
mod = ofparser.OFPFlowMod(datapath=datapath,
table_id=0,
priority=8,
match=match,
instructions=inst)
datapath.send_msg(mod)
# Se proviene da un'altra porta ha gia la label MPLS GOTO Tab 1 giusto per dirlo esplicitamente perche ci andrebbe da solo CREDO NON DEVO FARE LA PushMpls
match = ofparser.OFPMatch()
actions = [] #se proviene da un altra porta ha gia la label MPLS
inst = [
ofparser.OFPInstructionActions(ofproto.OFPIT_APPLY_ACTIONS,
actions),
ofparser.OFPInstructionGotoTable(1)
]
mod = ofparser.OFPFlowMod(datapath=datapath,
table_id=0,
priority=0,
match=match,
instructions=inst)
datapath.send_msg(mod)
''' ####################### TAB 1 marca il pkt con ID_PKT '''
# Setta la label_mpls se non e gia stata configurata con il valore GD[0] + 1 -> (id_switch << 6) + 1
match = ofparser.OFPMatch(eth_type=0x8847, mpls_label=0)
actions = [
osparser.OFPExpActionWriteContextToField(
src_type=osproto.SOURCE_TYPE_GLOBAL_DATA_VAR,
src_id=0,
dst_field=ofproto.OXM_OF_MPLS_LABEL),
osparser.OFPExpActionSetDataVariable(table_id=1,
opcode=osproto.OPCODE_SUM,
output_gd_id=0,
operand_1_gd_id=0,
operand_2_cost=1)
]
inst = [
ofparser.OFPInstructionActions(ofproto.OFPIT_APPLY_ACTIONS,
actions),
ofparser.OFPInstructionGotoTable(2)
]
mod = ofparser.OFPFlowMod(datapath=datapath,
table_id=1,
priority=8,
match=match,
instructions=inst)
datapath.send_msg(mod)
match = ofparser.OFPMatch(eth_type=0x8847)
actions = []
inst = [
ofparser.OFPInstructionActions(ofproto.OFPIT_APPLY_ACTIONS,
actions),
ofparser.OFPInstructionGotoTable(2)
]
mod = ofparser.OFPFlowMod(datapath=datapath,
table_id=1,
priority=0,
match=match,
instructions=inst)
datapath.send_msg(mod)
''' ####################### TAB 2 NULLA serve solo per i bug di OpenFlow, servono 2 stage xke le modifiche MPLS siano visibili'''
# Non fa niente, ci sta solo per risolvere bug (presunti) di OpenFlow
match = ofparser.OFPMatch(eth_type=0x8847)
actions = []
inst = [
ofparser.OFPInstructionActions(ofproto.OFPIT_APPLY_ACTIONS,
actions),
ofparser.OFPInstructionGotoTable(3)
]
mod = ofparser.OFPFlowMod(datapath=datapath,
table_id=2,
priority=0,
match=match,
instructions=inst)
datapath.send_msg(mod)
'''####################### TAB 3 Verifica i duplicati, lo stato e' dato da mpls_label'''
''' somma il costo del link di ingresso al valore memorizzato nel pacchetto mpls_tc + 1 '''
''' scrive il campo metada = 1 se e' un pacchetto duplicato ovvero nello stato 1 '''
""" Riga 1 """
# GD[0] = HF[1] + 1 -> MPLS_TC + 1
# HF [1] = GD[0] -> MPLS_TC = GD[0]
# WriteMetadata = 1 -> pacchetto duplicato
# SetState(1)
# GOTO Tab 2
match = ofparser.OFPMatch(state=1, eth_type=0x8847)
actions = [
osparser.OFPExpActionSetDataVariable(table_id=3,
opcode=osproto.OPCODE_SUM,
output_gd_id=0,
operand_1_hf_id=1,
operand_2_cost=1),
osparser.OFPExpActionWriteContextToField(
src_type=osproto.SOURCE_TYPE_GLOBAL_DATA_VAR,
src_id=0,
dst_field=ofproto.OXM_OF_MPLS_TC),
# osparser.OFPExpActionSetState(state=1, table_id=3, idle_timeout=15)]
osparser.OFPExpActionSetState(state=1, table_id=3)
]
inst = [
ofparser.OFPInstructionActions(ofproto.OFPIT_APPLY_ACTIONS,
actions),
ofparser.OFPInstructionWriteMetadata(metadata=1,
metadata_mask=0xFFFFFFFF),
ofparser.OFPInstructionGotoTable(4)
]
mod = ofparser.OFPFlowMod(datapath=datapath,
table_id=3,
priority=1198,
match=match,
instructions=inst)
datapath.send_msg(mod)
""" Riga 2 """
# GD[0] = HF[1] + 1 -> MPLS_TC + 1
# HF [1] = GD[0] -> MPLS_TC = GD[0]
# SetState(1)
# GOTO Tab 4
match = ofparser.OFPMatch(state=0, eth_type=0x8847)
actions = [
osparser.OFPExpActionSetDataVariable(table_id=3,
opcode=osproto.OPCODE_SUM,
output_gd_id=0,
operand_1_hf_id=1,
operand_2_cost=1),
osparser.OFPExpActionWriteContextToField(
src_type=osproto.SOURCE_TYPE_GLOBAL_DATA_VAR,
src_id=0,
dst_field=ofproto.OXM_OF_MPLS_TC),
# osparser.OFPExpActionSetState(state=1, table_id=3, idle_timeout=15)]
osparser.OFPExpActionSetState(state=1, table_id=3)
]
inst = [
ofparser.OFPInstructionActions(ofproto.OFPIT_APPLY_ACTIONS,
actions),
ofparser.OFPInstructionGotoTable(4)
]
mod = ofparser.OFPFlowMod(datapath=datapath,
table_id=3,
priority=198,
match=match,
instructions=inst)
datapath.send_msg(mod)
'''# ####################### TAB 4 verifica le condizioni C[0] e C[1]'''
''' C[0] verifica se il costo memorizzato nel pacchetto e' <= di quello gia conosciuto (in pratica se il pacchetto ha fatto un percorso migliore) '''
''' C[1] serve semplicemente a capire se e' lo switch direttametne collegato all'host che parla e quindi non bisogna fare il pop della label MPLS '''
''' le righe BIS verificano la C[1] e non eseguono il POP della label MPLS '''
''' metadata = 1 e' un pacchetto duplicato quindi DROP '''
''' nel caso imposta metadata = 3 cioe' non e' un pacchetto duplicato ma il costo e' maggiore di quello conosciuto, inoltro senza aggiornare stato '''
""" Riga 1 """
# C[0]: MPLS_TC > COSTO MEMORIZZATO -> HF[1] > FD[0]
# MetaData: 1 -> Pacchetto duplicato
# azione DROP
match = ofparser.OFPMatch(state=1,
eth_type=0x8847,
condition0=0,
metadata=1)
actions = [osparser.OFPExpActionSetState(state=1, table_id=4)]
self.add_flow(datapath=datapath,
table_id=4,
priority=1198,
match=match,
actions=actions)
""" Riga 2 """
# C[0]: MPLS_TC > COSTO MEMORIZZATO -> HF[1] > FD[0]
# MetaData: 0 -> Pacchetto NON duplicato
# SetState(1)
# WriteMetadata = 3 -> pacchetto da percorso peggiore ma NON duplicato
# azione GOTO Tab 3
match = ofparser.OFPMatch(state=1,
eth_type=0x8847,
condition0=0,
condition1=0,
metadata=0)
actions = [
osparser.OFPExpActionSetState(state=1, table_id=4),
ofparser.OFPActionPopMpls()
]
inst = [
ofparser.OFPInstructionActions(ofproto.OFPIT_APPLY_ACTIONS,
actions),
ofparser.OFPInstructionWriteMetadata(metadata=3,
metadata_mask=0xFFFFFFFF),
ofparser.OFPInstructionGotoTable(5)
]
mod = ofparser.OFPFlowMod(datapath=datapath,
table_id=4,
priority=198,
match=match,
instructions=inst)
datapath.send_msg(mod)
""" Riga 2 BIS """
# C[0]: MPLS_TC > COSTO MEMORIZZATO -> HF[1] > FD[0]
# MetaData: 0 -> Pacchetto NON duplicato
# SetState(1)
# WriteMetadata = 3 -> pacchetto da percorso peggiore ma NON duplicato
# azione GOTO Tab 3
match = ofparser.OFPMatch(state=1,
eth_type=0x8847,
condition0=0,
condition1=1,
metadata=0)
actions = [osparser.OFPExpActionSetState(state=1, table_id=4)]
inst = [
ofparser.OFPInstructionActions(ofproto.OFPIT_APPLY_ACTIONS,
actions),
ofparser.OFPInstructionWriteMetadata(metadata=3,
metadata_mask=0xFFFFFFFF),
ofparser.OFPInstructionGotoTable(5)
]
mod = ofparser.OFPFlowMod(datapath=datapath,
table_id=4,
priority=198,
match=match,
instructions=inst)
datapath.send_msg(mod)
""" Riga 3 """
# C[0]: MPLS_TC <= COSTO MEMORIZZATO -> HF[1] <= FD[0]
# FD[0] = HF[1] -> COSTO MEMORIZZATO = MPLS_TC
# SetState(1)
# azione GOTO Tab 3
match = ofparser.OFPMatch(state=1,
eth_type=0x8847,
condition0=1,
condition1=0)
actions = [
osparser.OFPExpActionSetState(state=1, table_id=4),
osparser.OFPExpActionSetDataVariable(table_id=4,
opcode=osproto.OPCODE_SUM,
output_fd_id=0,
operand_1_hf_id=1,
operand_2_cost=0),
ofparser.OFPActionPopMpls()
]
inst = [
ofparser.OFPInstructionActions(ofproto.OFPIT_APPLY_ACTIONS,
actions),
ofparser.OFPInstructionGotoTable(5)
]
mod = ofparser.OFPFlowMod(datapath=datapath,
table_id=4,
priority=98,
match=match,
instructions=inst)
datapath.send_msg(mod)
""" Riga 3 BIS """
# C[0]: MPLS_TC <= COSTO MEMORIZZATO -> HF[1] <= FD[0]
# FD[0] = HF[1] -> COSTO MEMORIZZATO = MPLS_TC
# SetState(1)
# azione GOTO Tab 3
match = ofparser.OFPMatch(state=1,
eth_type=0x8847,
condition0=1,
condition1=1)
actions = [
osparser.OFPExpActionSetState(state=1, table_id=4),
osparser.OFPExpActionSetDataVariable(table_id=4,
opcode=osproto.OPCODE_SUM,
output_fd_id=0,
operand_1_hf_id=1,
operand_2_cost=0)
]
inst = [
ofparser.OFPInstructionActions(ofproto.OFPIT_APPLY_ACTIONS,
actions),
ofparser.OFPInstructionGotoTable(5)
]
mod = ofparser.OFPFlowMod(datapath=datapath,
table_id=4,
priority=98,
match=match,
instructions=inst)
datapath.send_msg(mod)
""" Riga 4 """
# FD[0] = HF[1] -> COSTO MEMORIZZATO = MPLS_TC
# SetState(1)
# azione GOTO Tab 3
match = ofparser.OFPMatch(state=0, eth_type=0x8847, condition1=0)
actions = [
osparser.OFPExpActionSetState(state=1, table_id=4),
osparser.OFPExpActionSetDataVariable(table_id=4,
opcode=osproto.OPCODE_SUM,
output_fd_id=0,
operand_1_hf_id=1,
operand_2_cost=0),
ofparser.OFPActionPopMpls()
]
inst = [
ofparser.OFPInstructionActions(ofproto.OFPIT_APPLY_ACTIONS,
actions),
ofparser.OFPInstructionGotoTable(5)
]
mod = ofparser.OFPFlowMod(datapath=datapath,
table_id=4,
priority=8,
match=match,
instructions=inst)
datapath.send_msg(mod)
""" Riga 4 BIS """
# FD[0] = HF[1] -> COSTO MEMORIZZATO = MPLS_TC
# SetState(1)
# azione GOTO Tab 3
match = ofparser.OFPMatch(state=0, eth_type=0x8847, condition1=1)
actions = [
osparser.OFPExpActionSetState(state=1, table_id=4),
osparser.OFPExpActionSetDataVariable(table_id=4,
opcode=osproto.OPCODE_SUM,
output_fd_id=0,
operand_1_hf_id=1,
operand_2_cost=0)
]
inst = [
ofparser.OFPInstructionActions(ofproto.OFPIT_APPLY_ACTIONS,
actions),
ofparser.OFPInstructionGotoTable(5)
]
mod = ofparser.OFPFlowMod(datapath=datapath,
table_id=4,
priority=8,
match=match,
instructions=inst)
datapath.send_msg(mod)
'''# ####################### TAB 5 semplicemente MAC Learning '''
''' Mac Learning ampliato per gestire i metadata = 1 o metadata = 3 '''
''' metadata = 1 se e' arrivato fin qui significa che il costo nel pacchetto e' minore di quello conosciuto (ha seguito un percorso migliore) AGGIORNARE e DROP'''
''' metadata = 3 non e' un pacchetto duplicato ma il costo del percorso seguito e' peggiore di quello conosciuto NON AGGIORNARE e INOLTRA '''
# Per ogni input port, per ogni stato
for i in range(1, N + 1):
for s in range(N + 1):
match = ofparser.OFPMatch(in_port=i, state=s)
if s == 0:
out_port = ofproto.OFPP_FLOOD #serve la flood, dipende se sto su S1 o S6
else:
out_port = s
# actions = [osparser.OFPExpActionSetState(state=i, table_id=5, hard_timeout=10),
actions = [
osparser.OFPExpActionSetState(state=i, table_id=5),
ofparser.OFPActionOutput(out_port)
]
self.add_flow(datapath=datapath,
table_id=5,
priority=0,
match=match,
actions=actions)
# Configuro le entry con azione DROP per i pacchetti duplicati (con metadata = 1)
match = ofparser.OFPMatch(in_port=i, metadata=1)
# actions = [osparser.OFPExpActionSetState(state=i, table_id=5, hard_timeout=10)]
actions = [osparser.OFPExpActionSetState(state=i, table_id=5)]
self.add_flow(datapath=datapath,
table_id=5,
priority=1198,
match=match,
actions=actions)
# Per ogni stato
for s in range(N + 1):
match = ofparser.OFPMatch(state=s, metadata=3)
if s == 0:
out_port = ofproto.OFPP_FLOOD #serve la flood, dipende se sto su S1 o S6
else:
out_port = s
# Configuro le entry per l'output(in_port) senza aggiornare lo stato
actions = [ofparser.OFPActionOutput(out_port)]
self.add_flow(datapath=datapath,
table_id=5,
priority=198,
match=match,
actions=actions)
