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ryu_multipath.py
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ryu_multipath.py
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from ryu.base import app_manager
from ryu.controller import mac_to_port
from ryu.controller import ofp_event
from ryu.controller.handler import CONFIG_DISPATCHER, MAIN_DISPATCHER
from ryu.controller.handler import set_ev_cls
from ryu.ofproto import ofproto_v1_3
from ryu.lib.mac import haddr_to_bin
from ryu.lib.packet import packet
from ryu.lib.packet import arp
from ryu.lib.packet import ethernet
from ryu.lib.packet import ipv4
from ryu.lib.packet import ipv6
from ryu.lib.packet import ether_types
from ryu.lib import mac, ip
from ryu.topology.api import get_switch, get_link
from ryu.app.wsgi import ControllerBase
from ryu.topology import event
from collections import defaultdict
from operator import itemgetter
import os
import random
import time
# Cisco Reference bandwidth = 1 Gbps
REFERENCE_BW = 10000000
DEFAULT_BW = 10000000
MAX_PATHS = 2
class ProjectController(app_manager.RyuApp):
OFP_VERSIONS = [ofproto_v1_3.OFP_VERSION]
def __init__(self, *args, **kwargs):
super(ProjectController, self).__init__(*args, **kwargs)
self.mac_to_port = {}
self.topology_api_app = self
self.datapath_list = {}
self.arp_table = {}
self.switches = []
self.hosts = {}
self.multipath_group_ids = {}
self.group_ids = []
self.adjacency = defaultdict(dict)
self.bandwidths = defaultdict(lambda: defaultdict(lambda: DEFAULT_BW))
def get_paths(self, src, dst):
'''
Get all paths from src to dst using DFS algorithm
'''
if src == dst:
# host target is on the same switch
return [[src]]
paths = []
stack = [(src, [src])]
while stack:
(node, path) = stack.pop()
for next in set(self.adjacency[node].keys()) - set(path):
if next is dst:
paths.append(path + [next])
else:
stack.append((next, path + [next]))
print "Available paths from ", src, " to ", dst, " : ", paths
return paths
def get_link_cost(self, s1, s2):
'''
Get the link cost between two switches
'''
e1 = self.adjacency[s1][s2]
e2 = self.adjacency[s2][s1]
bl = min(self.bandwidths[s1][e1], self.bandwidths[s2][e2])
ew = REFERENCE_BW/bl
return ew
def get_path_cost(self, path):
'''
Get the path cost
'''
cost = 0
for i in range(len(path) - 1):
cost += self.get_link_cost(path[i], path[i+1])
return cost
def get_optimal_paths(self, src, dst):
'''
Get the n-most optimal paths according to MAX_PATHS
'''
paths = self.get_paths(src, dst)
paths_count = len(paths) if len(
paths) < MAX_PATHS else MAX_PATHS
return sorted(paths, key=lambda x: self.get_path_cost(x))[0:(paths_count)]
def add_ports_to_paths(self, paths, first_port, last_port):
'''
Add the ports that connects the switches for all paths
'''
paths_p = []
for path in paths:
p = {}
in_port = first_port
for s1, s2 in zip(path[:-1], path[1:]):
out_port = self.adjacency[s1][s2]
p[s1] = (in_port, out_port)
in_port = self.adjacency[s2][s1]
p[path[-1]] = (in_port, last_port)
paths_p.append(p)
return paths_p
def generate_openflow_gid(self):
'''
Returns a random OpenFlow group id
'''
n = random.randint(0, 2**32)
while n in self.group_ids:
n = random.randint(0, 2**32)
return n
def install_paths(self, src, first_port, dst, last_port, ip_src, ip_dst):
computation_start = time.time()
paths = self.get_optimal_paths(src, dst)
pw = []
for path in paths:
pw.append(self.get_path_cost(path))
print path, "cost = ", pw[len(pw) - 1]
sum_of_pw = sum(pw) * 1.0
paths_with_ports = self.add_ports_to_paths(paths, first_port, last_port)
switches_in_paths = set().union(*paths)
for node in switches_in_paths:
dp = self.datapath_list[node]
ofp = dp.ofproto
ofp_parser = dp.ofproto_parser
ports = defaultdict(list)
actions = []
i = 0
for path in paths_with_ports:
if node in path:
in_port = path[node][0]
out_port = path[node][1]
if (out_port, pw[i]) not in ports[in_port]:
ports[in_port].append((out_port, pw[i]))
i += 1
for in_port in ports:
match_ip = ofp_parser.OFPMatch(
eth_type=0x0800,
ipv4_src=ip_src,
ipv4_dst=ip_dst
)
match_arp = ofp_parser.OFPMatch(
eth_type=0x0806,
arp_spa=ip_src,
arp_tpa=ip_dst
)
out_ports = ports[in_port]
# print out_ports
if len(out_ports) > 1:
group_id = None
group_new = False
if (node, src, dst) not in self.multipath_group_ids:
group_new = True
self.multipath_group_ids[
node, src, dst] = self.generate_openflow_gid()
group_id = self.multipath_group_ids[node, src, dst]
buckets = []
# print "node at ",node," out ports : ",out_ports
for port, weight in out_ports:
bucket_weight = int(round((1 - weight/sum_of_pw) * 10))
bucket_action = [ofp_parser.OFPActionOutput(port)]
buckets.append(
ofp_parser.OFPBucket(
weight=bucket_weight,
watch_port=port,
watch_group=ofp.OFPG_ANY,
actions=bucket_action
)
)
if group_new:
req = ofp_parser.OFPGroupMod(
dp, ofp.OFPGC_ADD, ofp.OFPGT_SELECT, group_id,
buckets
)
dp.send_msg(req)
else:
req = ofp_parser.OFPGroupMod(
dp, ofp.OFPGC_MODIFY, ofp.OFPGT_SELECT,
group_id, buckets)
dp.send_msg(req)
actions = [ofp_parser.OFPActionGroup(group_id)]
self.add_flow(dp, 32768, match_ip, actions)
self.add_flow(dp, 1, match_arp, actions)
elif len(out_ports) == 1:
actions = [ofp_parser.OFPActionOutput(out_ports[0][0])]
self.add_flow(dp, 32768, match_ip, actions)
self.add_flow(dp, 1, match_arp, actions)
print "Path installation finished in ", time.time() - computation_start
return paths_with_ports[0][src][1]
def add_flow(self, datapath, priority, match, actions, buffer_id=None):
# print "Adding flow ", match, actions
ofproto = datapath.ofproto
parser = datapath.ofproto_parser
inst = [parser.OFPInstructionActions(ofproto.OFPIT_APPLY_ACTIONS,
actions)]
if buffer_id:
mod = parser.OFPFlowMod(datapath=datapath, buffer_id=buffer_id,
priority=priority, match=match,
instructions=inst)
else:
mod = parser.OFPFlowMod(datapath=datapath, priority=priority,
match=match, instructions=inst)
datapath.send_msg(mod)
@set_ev_cls(ofp_event.EventOFPSwitchFeatures, CONFIG_DISPATCHER)
def _switch_features_handler(self, ev):
print "switch_features_handler is called"
datapath = ev.msg.datapath
ofproto = datapath.ofproto
parser = datapath.ofproto_parser
match = parser.OFPMatch()
actions = [parser.OFPActionOutput(ofproto.OFPP_CONTROLLER,
ofproto.OFPCML_NO_BUFFER)]
self.add_flow(datapath, 0, match, actions)
@set_ev_cls(ofp_event.EventOFPPortDescStatsReply, MAIN_DISPATCHER)
def port_desc_stats_reply_handler(self, ev):
switch = ev.msg.datapath
for p in ev.msg.body:
self.bandwidths[switch.id][p.port_no] = p.curr_speed
@set_ev_cls(ofp_event.EventOFPPacketIn, MAIN_DISPATCHER)
def _packet_in_handler(self, ev):
msg = ev.msg
datapath = msg.datapath
ofproto = datapath.ofproto
parser = datapath.ofproto_parser
in_port = msg.match['in_port']
pkt = packet.Packet(msg.data)
eth = pkt.get_protocol(ethernet.ethernet)
arp_pkt = pkt.get_protocol(arp.arp)
# avoid broadcast from LLDP
if eth.ethertype == 35020:
return
if pkt.get_protocol(ipv6.ipv6): # Drop the IPV6 Packets.
match = parser.OFPMatch(eth_type=eth.ethertype)
actions = []
self.add_flow(datapath, 1, match, actions)
return None
dst = eth.dst
src = eth.src
dpid = datapath.id
if src not in self.hosts:
self.hosts[src] = (dpid, in_port)
out_port = ofproto.OFPP_FLOOD
if arp_pkt:
# print dpid, pkt
src_ip = arp_pkt.src_ip
dst_ip = arp_pkt.dst_ip
if arp_pkt.opcode == arp.ARP_REPLY:
self.arp_table[src_ip] = src
h1 = self.hosts[src]
h2 = self.hosts[dst]
out_port = self.install_paths(h1[0], h1[1], h2[0], h2[1], src_ip, dst_ip)
self.install_paths(h2[0], h2[1], h1[0], h1[1], dst_ip, src_ip) # reverse
elif arp_pkt.opcode == arp.ARP_REQUEST:
if dst_ip in self.arp_table:
self.arp_table[src_ip] = src
dst_mac = self.arp_table[dst_ip]
h1 = self.hosts[src]
h2 = self.hosts[dst_mac]
out_port = self.install_paths(h1[0], h1[1], h2[0], h2[1], src_ip, dst_ip)
self.install_paths(h2[0], h2[1], h1[0], h1[1], dst_ip, src_ip) # reverse
# print pkt
actions = [parser.OFPActionOutput(out_port)]
data = None
if msg.buffer_id == ofproto.OFP_NO_BUFFER:
data = msg.data
out = parser.OFPPacketOut(
datapath=datapath, buffer_id=msg.buffer_id, in_port=in_port,
actions=actions, data=data)
datapath.send_msg(out)
@set_ev_cls(event.EventSwitchEnter)
def switch_enter_handler(self, ev):
switch = ev.switch.dp
ofp_parser = switch.ofproto_parser
if switch.id not in self.switches:
self.switches.append(switch.id)
self.datapath_list[switch.id] = switch
# Request port/link descriptions, useful for obtaining bandwidth
req = ofp_parser.OFPPortDescStatsRequest(switch)
switch.send_msg(req)
@set_ev_cls(event.EventSwitchLeave, MAIN_DISPATCHER)
def switch_leave_handler(self, ev):
print ev
switch = ev.switch.dp.id
if switch in self.switches:
self.switches.remove(switch)
del self.datapath_list[switch]
del self.adjacency[switch]
@set_ev_cls(event.EventLinkAdd, MAIN_DISPATCHER)
def link_add_handler(self, ev):
s1 = ev.link.src
s2 = ev.link.dst
self.adjacency[s1.dpid][s2.dpid] = s1.port_no
self.adjacency[s2.dpid][s1.dpid] = s2.port_no
@set_ev_cls(event.EventLinkDelete, MAIN_DISPATCHER)
def link_delete_handler(self, ev):
s1 = ev.link.src
s2 = ev.link.dst
# Exception handling if switch already deleted
try:
del self.adjacency[s1.dpid][s2.dpid]
del self.adjacency[s2.dpid][s1.dpid]
except KeyError:
pass