"""

The learning switch "brain" associated with a single OpenFlow switch.

When we see a packet, we'd like to output it on a port which will

eventually lead to the destination. To accomplish this, we build a

table that maps addresses to ports.

We populate the table by observing traffic. When we see a packet

from some source coming from some port, we know that source is out

that port.

When we want to forward traffic, we look up the desintation in our

table. If we don't know the port, we simply send the message out

all ports except the one it came in on. (In the presence of loops,

this is bad!).

In short, our algorithm looks like this:

For each packet from the switch:

1) Use source address and switch port to update address/port table

2) Is transparent = False and either Ethertype is LLDP or the packet's

destination address is a Bridge Filtered address?

Yes:

2a) Drop packet -- don't forward link-local traffic (LLDP, 802.1x)

DONE

3) Is destination multicast?

Yes:

3a) Flood the packet

DONE

4) Port for destination address in our address/port table?

No:

4a) Flood the packet

DONE

5) Is output port the same as input port?

Yes:

5a) Drop packet and similar ones for a while

6) Install flow table entry in the switch so that this

flow goes out the appopriate port

6a) Send the packet out appropriate port

"""

def __init__ (self, connection, transparent):

# Switch we'll be adding L2 learning switch capabilities to

self.connection = connection

self.transparent = transparent

# Our table

self.macToPort = {}

# We want to hear PacketIn messages, so we listen

# to the connection

connection.addListeners(self)

# We just use this to know when to log a helpful message

self.hold_down_expired = _flood_delay == 0

#log.debug("Initializing LearningSwitch, transparent=%s",

# str(self.transparent))

def _handle_PacketIn (self, event):

"""

Handle packet in messages from the switch to implement above algorithm.

"""

packet = event.parsed

def flood (message = None):

""" Floods the packet """

msg = of.ofp_packet_out()

if time.time() - self.connection.connect_time >= _flood_delay:

# Only flood if we've been connected for a little while...

if self.hold_down_expired is False:

# Oh yes it is!

self.hold_down_expired = True

log.info("%s: Flood hold-down expired -- flooding",

dpid_to_str(event.dpid))

if message is not None: log.debug(message)

#log.debug("%i: flood %s -> %s", event.dpid,packet.src,packet.dst)

# OFPP_FLOOD is optional; on some switches you may need to change

# this to OFPP_ALL.

msg.actions.append(of.ofp_action_output(port = of.OFPP_FLOOD))

else:

pass

#log.info("Holding down flood for %s", dpid_to_str(event.dpid))

msg.data = event.ofp

msg.in_port = event.port

self.connection.send(msg)

def drop (duration = None):

"""

Drops this packet and optionally installs a flow to continue

dropping similar ones for a while

"""

if duration is not None:

if not isinstance(duration, tuple):

duration = (duration,duration)

msg = of.ofp_flow_mod()

msg.match = of.ofp_match.from_packet(packet)

msg.idle_timeout = duration[0]

msg.hard_timeout = duration[1]

msg.buffer_id = event.ofp.buffer_id

self.connection.send(msg)

elif event.ofp.buffer_id is not None:

msg = of.ofp_packet_out()

msg.buffer_id = event.ofp.buffer_id

msg.in_port = event.port

self.connection.send(msg)

self.macToPort[packet.src] = event.port # 1

if not self.transparent: # 2

if packet.type == packet.LLDP_TYPE or packet.dst.isBridgeFiltered():

drop() # 2a

return

if packet.dst.is_multicast:

flood() # 3a

else:

if packet.dst not in self.macToPort: # 4

flood("Port for %s unknown -- flooding" % (packet.dst,)) # 4a

else:

port = self.macToPort[packet.dst]

if port == event.port: # 5

# 5a

log.warning("Same port for packet from %s -> %s on %s.%s. Drop."

% (packet.src, packet.dst, dpid_to_str(event.dpid), port))

drop(10)

return

# 6

log.debug("installing flow for %s.%i -> %s.%i" %

(packet.src, event.port, packet.dst, port))

msg = of.ofp_flow_mod()

msg.match = of.ofp_match.from_packet(packet, event.port)

msg.idle_timeout = 10

msg.hard_timeout = 30

msg.actions.append(of.ofp_action_output(port = port))

msg.data = event.ofp # 6a

"""

Waits for OpenFlow switches to connect and makes them learning switches.

"""

def __init__ (self, transparent, ignore = None):

"""

Initialize

See LearningSwitch for meaning of 'transparent'

'ignore' is an optional list/set of DPIDs to ignore

"""

core.openflow.addListeners(self)

self.transparent = transparent

self.ignore = set(ignore) if ignore else ()

self.url = 'amqp://cuvzmrst:QxvOG1o9BnghrJdjq1AV1eSHbDN73vLD@dinosaur.rmq.cloudamqp.com/cuvzmrst'

self.params = pika.URLParameters(self.url)

self.connection = pika.BlockingConnection(self.params)

self.channel = self.connection.channel()

self.channel.queue_declare(queue='pub22', durable=True)

self.channel2 = self.connection.channel()

self.channel2.queue_declare(queue='pub222', durable=True)

print('')

threading._start_new_thread(subs2,())

threading._start_new_thread(subs3,())

def _handle_ConnectionUp (self, event):

if event.dpid in self.ignore:

log.debug("Ignoring connection %s" % (event.connection,))

return

log.debug("Connection %s" % (event.connection,))

LearningSwitch(event.connection, self.transparent)

sw.append(dpid_to_str(event.dpid))

message = dpid_to_str(event.dpid)

self.channel.basic_publish(exchange='',

routing_key='pub22',

body=message,

properties=pika.BasicProperties(

delivery_mode = 2, # make message persistent

))

def _handle_ConnectionDown(self, event):

message = dpid_to_str(event.dpid)

self.channel.basic_publish(exchange='',

routing_key='pub222',

body=message,

properties=pika.BasicProperties(

delivery_mode = 2, # make message persistent

url = 'amqp://cuvzmrst:QxvOG1o9BnghrJdjq1AV1eSHbDN73vLD@dinosaur.rmq.cloudamqp.com/cuvzmrst'

params = pika.URLParameters(url)

connection = pika.BlockingConnection(params)

threading._start_new_thread(subs,())

threading._start_new_thread(pub,())

channel = connection.channel()

channel.queue_declare(queue='pub2', durable=True)

print('')

message = "Controller 1 aktif"

channel.basic_publish(exchange='',

routing_key='pub2',

body=message,

properties=pika.BasicProperties(

delivery_mode = 2, # make message persistent

))

print("%r" % message)

"""

Starts an L2 learning switch.

"""

try:

global _flood_delay

_flood_delay = int(str(hold_down), 10)

assert _flood_delay >= 0

except:

raise RuntimeError("Expected hold-down to be a number")

if ignore:

ignore = ignore.replace(',', ' ').split()

ignore = set(str_to_dpid(dpid) for dpid in ignore)

print('')

url = 'amqp://cuvzmrst:QxvOG1o9BnghrJdjq1AV1eSHbDN73vLD@dinosaur.rmq.cloudamqp.com/cuvzmrst'

params = pika.URLParameters(url)

connection = pika.BlockingConnection(params)

channel = connection.channel()

channel.queue_declare(queue='pub1', durable=True)

print('')

def callback(ch, method, properties, body):

print("Received : %r" % body)

time.sleep(body.count(b'.'))

print("")

ch.basic_ack(delivery_tag = method.delivery_tag)

channel.basic_qos(prefetch_count=1)

channel.basic_consume(callback,

queue='pub1')

url = 'amqp://cuvzmrst:QxvOG1o9BnghrJdjq1AV1eSHbDN73vLD@dinosaur.rmq.cloudamqp.com/cuvzmrst'

params = pika.URLParameters(url)

connection = pika.BlockingConnection(params)

channel = connection.channel()

channel.queue_declare(queue='pub11', durable=True)

print('')

def callback(ch, method, properties, body):

print("Switch terhubung controller 2 : %r" % body)

addsw.append(body)

time.sleep(body.count(b'.'))

print("")

ch.basic_ack(delivery_tag = method.delivery_tag)

channel.basic_qos(prefetch_count=1)

channel.basic_consume(callback,

queue='pub11')

url = 'amqp://cuvzmrst:QxvOG1o9BnghrJdjq1AV1eSHbDN73vLD@dinosaur.rmq.cloudamqp.com/cuvzmrst'

params = pika.URLParameters(url)

connection = pika.BlockingConnection(params)

channel = connection.channel()

channel.queue_declare(queue='pub111', durable=True)

print('')

def callback(ch, method, properties, body):

print("Switch tidak terhubung controller 2 : %r" % body)

for item in addsw:

if item == body:

addsw.remove(item)

time.sleep(body.count(b'.'))

print("")

ch.basic_ack(delivery_tag = method.delivery_tag)

channel.basic_qos(prefetch_count=1)

channel.basic_consume(callback,

queue='pub111')

url = 'amqp://cuvzmrst:QxvOG1o9BnghrJdjq1AV1eSHbDN73vLD@dinosaur.rmq.cloudamqp.com/cuvzmrst'

params = pika.URLParameters(url)

connection = pika.BlockingConnection(params)

channel = connection.channel()

channel.queue_declare(queue='pub1111', durable=True)

print('')

def callback(ch, method, properties, body):

global counterfail

if counterfail==-1:

counterfail=0

threading._start_new_thread(failover,())

else:

counterfail=0

time.sleep(body.count(b'.'))

ch.basic_ack(delivery_tag = method.delivery_tag)

channel.basic_qos(prefetch_count=1)

channel.basic_consume(callback,

queue='pub1111')

url = 'amqp://cuvzmrst:QxvOG1o9BnghrJdjq1AV1eSHbDN73vLD@dinosaur.rmq.cloudamqp.com/cuvzmrst'

params = pika.URLParameters(url)

connection = pika.BlockingConnection(params)

threading._start_new_thread(subs4,())

channel = connection.channel()

channel.queue_declare(queue='pub2222', durable=True)

print('')

message = "failover"

while True:

channel.basic_publish(exchange='',

routing_key='pub2222',

body=message,

properties=pika.BasicProperties(

delivery_mode = 2, # make message persistent

))

time.sleep(5)

global counterfail

while counterfail<10:

time.sleep(1)

counterfail+=1

print("Controller 2 down")

url = 'amqp://cuvzmrst:QxvOG1o9BnghrJdjq1AV1eSHbDN73vLD@dinosaur.rmq.cloudamqp.com/cuvzmrst'

params = pika.URLParameters(url)

connection = pika.BlockingConnection(params)

channel = connection.channel()

channel.queue_declare(queue='migration', durable=True)

for item in addsw:

channel.basic_publish(exchange='',

routing_key='migration',

body=item,

properties=pika.BasicProperties(

delivery_mode = 2, # make message persistent