import time
from subprocess import Popen
import os
+import re
+
+
from mininet.net import Dockernet
from mininet.node import Controller, DefaultController, OVSSwitch, OVSKernelSwitch, Docker, RemoteController
from emuvim.dcemulator.node import Datacenter, EmulatorCompute
from emuvim.dcemulator.resourcemodel import ResourceModelRegistrar
-
class DCNetwork(Dockernet):
"""
Wraps the original Mininet/Dockernet class and provides
This class is used by topology definition scripts.
"""
- def __init__(self, controller=RemoteController,
+ def __init__(self, controller=RemoteController, monitor=False,
dc_emulation_max_cpu=1.0, # fraction of overall CPU time for emulation
dc_emulation_max_mem=512, # emulation max mem in MB
**kwargs):
self.DCNetwork_graph = nx.MultiDiGraph()
# monitoring agent
- self.monitor_agent = DCNetworkMonitor(self)
+ if monitor:
+ self.monitor_agent = DCNetworkMonitor(self)
+ else:
+ self.monitor_agent = None
# initialize resource model registrar
self.rm_registrar = ResourceModelRegistrar(
if "id" in params["params2"]:
node2_port_id = params["params2"]["id"]
+
+
# add edge and assigned port number to graph in both directions between node1 and node2
# port_id: id given in descriptor (if available, otherwise same as port)
# port: portnumber assigned by Dockernet
- self.DCNetwork_graph.add_edge(node1.name, node2.name,
- attr_dict={'src_port_id': node1_port_id, 'src_port': node1.ports[link.intf1],
- 'dst_port_id': node2_port_id, 'dst_port': node2.ports[link.intf2]})
- self.DCNetwork_graph.add_edge(node2.name, node1.name,
- attr_dict={'src_port_id': node2_port_id, 'src_port': node2.ports[link.intf2],
- 'dst_port_id': node1_port_id, 'dst_port': node1.ports[link.intf1]})
+ attr_dict = {}
+ # possible weight metrics allowed by TClink class:
+ weight_metrics = ['bw', 'delay', 'jitter', 'loss']
+ edge_attributes = [p for p in params if p in weight_metrics]
+ for attr in edge_attributes:
+ # if delay: strip ms (need number as weight in graph)
+ match = re.search('([0-9]*\.?[0-9]+)', params[attr])
+ if match:
+ attr_number = match.group(1)
+ else:
+ attr_number = None
+ attr_dict[attr] = attr_number
+
+
+ attr_dict2 = {'src_port_id': node1_port_id, 'src_port': node1.ports[link.intf1],
+ 'dst_port_id': node2_port_id, 'dst_port': node2.ports[link.intf2]}
+ attr_dict2.update(attr_dict)
+ self.DCNetwork_graph.add_edge(node1.name, node2.name, attr_dict=attr_dict2)
+
+ attr_dict2 = {'src_port_id': node2_port_id, 'src_port': node2.ports[link.intf2],
+ 'dst_port_id': node1_port_id, 'dst_port': node1.ports[link.intf1]}
+ attr_dict2.update(attr_dict)
+ self.DCNetwork_graph.add_edge(node2.name, node1.name, attr_dict=attr_dict2)
return link
Dockernet.start(self)
def stop(self):
- # stop Ryu controller
+
+ # stop the monitor agent
+ if self.monitor_agent is not None:
+ self.monitor_agent.stop()
+
+ # stop emulator net
Dockernet.stop(self)
+
+ # stop Ryu controller
self.stopRyu()
+
def CLI(self):
CLI(self)
# to remove chain do setChain( src, dst, cmd='del-flows')
- def setChain(self, vnf_src_name, vnf_dst_name, cmd='add-flow'):
+ def setChain(self, vnf_src_name, vnf_dst_name, vnf_src_interface=None, vnf_dst_interface=None, cmd='add-flow', weight=None):
#check if port is specified (vnf:port)
- try:
- vnf_source_interface = vnf_src_name.split(':')[1]
- except:
+ if vnf_src_interface is None:
# take first interface by default
connected_sw = self.DCNetwork_graph.neighbors(vnf_src_name)[0]
link_dict = self.DCNetwork_graph[vnf_src_name][connected_sw]
- vnf_source_interface = link_dict[0]['src_port_id']
- #vnf_source_interface = 0
+ vnf_src_interface = link_dict[0]['src_port_id']
+ #logging.info('vnf_src_if: {0}'.format(vnf_src_interface))
- vnf_src_name = vnf_src_name.split(':')[0]
for connected_sw in self.DCNetwork_graph.neighbors(vnf_src_name):
link_dict = self.DCNetwork_graph[vnf_src_name][connected_sw]
for link in link_dict:
- #logging.info("{0},{1}".format(link_dict[link],vnf_source_interface))
- if link_dict[link]['src_port_id'] == vnf_source_interface:
+ #logging.info("here1: {0},{1}".format(link_dict[link],vnf_src_interface))
+ if link_dict[link]['src_port_id'] == vnf_src_interface:
# found the right link and connected switch
- #logging.info("{0},{1}".format(link_dict[link]['src_port_id'], vnf_source_interface))
+ #logging.info("conn_sw: {2},{0},{1}".format(link_dict[link]['src_port_id'], vnf_src_interface, connected_sw))
src_sw = connected_sw
src_sw_inport = link_dict[link]['dst_port']
break
- try:
- vnf_dest_interface = vnf_dst_name.split(':')[1]
- except:
+ if vnf_dst_interface is None:
# take first interface by default
connected_sw = self.DCNetwork_graph.neighbors(vnf_dst_name)[0]
link_dict = self.DCNetwork_graph[connected_sw][vnf_dst_name]
- vnf_dest_interface = link_dict[0]['dst_port_id']
- #vnf_dest_interface = 0
+ vnf_dst_interface = link_dict[0]['dst_port_id']
vnf_dst_name = vnf_dst_name.split(':')[0]
for connected_sw in self.DCNetwork_graph.neighbors(vnf_dst_name):
link_dict = self.DCNetwork_graph[connected_sw][vnf_dst_name]
for link in link_dict:
- if link_dict[link]['dst_port_id'] == vnf_dest_interface:
+ if link_dict[link]['dst_port_id'] == vnf_dst_interface:
# found the right link and connected switch
dst_sw = connected_sw
dst_sw_outport = link_dict[link]['src_port']
# get shortest path
#path = nx.shortest_path(self.DCNetwork_graph, vnf_src_name, vnf_dst_name)
try:
- path = nx.shortest_path(self.DCNetwork_graph, src_sw, dst_sw)
+ # returns the first found shortest path
+ # if all shortest paths are wanted, use: all_shortest_paths
+ path = nx.shortest_path(self.DCNetwork_graph, src_sw, dst_sw, weight=weight)
except:
logging.info("No path could be found between {0} and {1}".format(vnf_src_name, vnf_dst_name))
return "No path could be found between {0} and {1}".format(vnf_src_name, vnf_dst_name)
logging.info("Next node: {0} is not a switch".format(next_hop))
return "Next node: {0} is not a switch".format(next_hop)
else:
+ # take first link between switches by default
index_edge_out = 0
switch_outport = self.DCNetwork_graph[current_hop][next_hop][index_edge_out]['src_port']
- # take into account that multiple edges are possible between 2 nodes
- index_edge_in = 0
-
-
- #switch_inport = self.DCNetwork_graph[current_hop][next_hop][index_edge_in]['dst_port']
-
- #next2_hop = path[path.index(current_hop)+2]
- #index_edge_out = 0
- #switch_outport = self.DCNetwork_graph[next_hop][next2_hop][index_edge_out]['src_port']
- #switch_outport = self.DCNetwork_graph[current_hop][next_hop][index_edge_out]['src_port']
#logging.info("add flow in switch: {0} in_port: {1} out_port: {2}".format(current_node.name, switch_inport, switch_outport))
# set of entry via ovs-ofctl
- # TODO use rest API of ryu to set flow entries to correct witch dpid
+ # TODO use rest API of ryu to set flow entries to correct dpid
+ # TODO this only sets port in to out, no match, so this will give trouble when multiple services are deployed...
+ # TODO need multiple matches to do this (VLAN tags)
if isinstance( current_node, OVSSwitch ):
match = 'in_port=%s' % switch_inport
current_node.dpctl(cmd, ofcmd)
logging.info("add flow in switch: {0} in_port: {1} out_port: {2}".format(current_node.name, switch_inport,
switch_outport))
-
- switch_inport = self.DCNetwork_graph[current_hop][next_hop][index_edge_out]['dst_port']
- current_hop = next_hop
+ # take first link between switches by default
+ if isinstance( next_node, OVSSwitch ):
+ switch_inport = self.DCNetwork_graph[current_hop][next_hop][0]['dst_port']
+ current_hop = next_hop
return "path added between {0} and {1}".format(vnf_src_name, vnf_dst_name)
#return "destination node: {0} not reached".format(vnf_dst_name)
ryu_of_port = '6653'
ryu_cmd = 'ryu-manager'
FNULL = open("/tmp/ryu.log", 'w')
- self.ryu_process = Popen([ryu_cmd, ryu_path, ryu_path2, ryu_option, ryu_of_port], stdout=FNULL, stderr=FNULL)
+ #self.ryu_process = Popen([ryu_cmd, ryu_path, ryu_path2, ryu_option, ryu_of_port], stdout=FNULL, stderr=FNULL)
# no learning switch
- #self.ryu_process = Popen([ryu_cmd, ryu_path2, ryu_option, ryu_of_port], stdout=FNULL, stderr=FNULL)
+ self.ryu_process = Popen([ryu_cmd, ryu_path2, ryu_option, ryu_of_port], stdout=FNULL, stderr=FNULL)
time.sleep(1)
def stopRyu(self):