mininet controller assignment1

from pox.core import core
import pox.lib.packet as pkt
import pox.lib.packet.ethernet as eth
import pox.lib.packet.arp as arp
import pox.lib.packet.icmp as icmp
import pox.lib.packet.ipv4 as ip
import pox.openflow.libopenflow_01 as of
from pox.lib.util import dpidToStr
from pox.lib.addresses import EthAddr

log = core.getLogger()

### This is the list where you will store the rules that need to be installed. ###################
### HINT: A good choice of tuples would include eth-source, eth-destination and output QoS queue #########
rules=[{},{},{},…]

##################################################################################################

def launch ():
core.openflow.addListenerByName(“ConnectionUp”, _handle_ConnectionUp)
core.openflow.addListenerByName(“PacketIn”, _handle_PacketIn)
log.info(“Switch running.”)

def _handle_ConnectionUp ( event):
log.info(“Starting Switch %s”, dpidToStr(event.dpid))
msg = of.ofp_flow_mod(command = of.OFPFC_DELETE)
event.connection.send(msg)

def _handle_PacketIn ( event):

dpid = event.connection.dpid
sw=dpidToStr(event.dpid)
inport = event.port
eth_packet = event.parsed
log.debug(“Event: switch %s port %s packet %s” % (sw, inport, eth_packet))

### this code use the incoming packets information to understand nodes reachability, then tries to retrieve a destination if this is available
table[(event.connection,eth_packet.src)] = event.port
dst_port = table.get((event.connection,eth_packet.dst))

### You can start adding your code here #################################
### HINT: you could handle all the ARP packets of broadcast type (ff:ff:ff:ff:ff:ff) from the controller (without installing rules): simply receive the message and send it back to all ports.
if dst_port is None and eth_packet.type == eth.ARP_TYPE and eth_packet.dst == EthAddr(b”\xff\xff\xff\xff\xff\xff”):

##### add code here for dealing with ARP packets #####
#########################################################

######### Add new code hereThis is the part where you should loop over the rules you have defined #########################################################
############## ##############
#### The most important part is that your controller installs a rule in the switch, according to the rules you have defined. It’s important that if there ###
#### is a QoS requirement the flow rules makes use f teh appropriate queue – rhis queues are created in the other file ###
### ###
### After this you should also forward the packet to the correct destination to avoid dropping it. All following packets will not come to the controller ###
### if the rule is installed correctly ###
##############################################################################################################################################################