from mininet.cli import CLI
from mininet.log import setLogLevel, info
from mininet.link import TCLink, Link
+import networkx as nx
+from monitoring import DCNetworkMonitor
from node import Datacenter, EmulatorCompute
def __init__(self, **kwargs):
self.dcs = {}
# create a Mininet/Dockernet network
- setLogLevel('info') # set Mininet loglevel
# call original Docker.__init__ and setup default controller
Dockernet.__init__(
- self, controller=Controller, switch=OVSKernelSwitch, **kwargs)
- self.addController('c0')
+ self, controller=RemoteController, switch=OVSKernelSwitch, **kwargs)
+ #self.addController('c0')
- def addDatacenter(self, name):
+ # graph of the complete DC network
+ self.DCNetwork_graph=nx.DiGraph()
+
+ # monitoring agent
+ self.monitor_agent = DCNetworkMonitor(self)
+
+
+ def addDatacenter(self, label, metadata={}):
"""
Create and add a logical cloud data center to the network.
"""
- if name in self.dcs:
- raise Exception("Data center name already exists: %s" % name)
- dc = Datacenter(name)
+ if label in self.dcs:
+ raise Exception("Data center label already exists: %s" % label)
+ dc = Datacenter(label, metadata=metadata)
dc.net = self # set reference to network
- self.dcs[name] = dc
+ self.dcs[label] = dc
dc.create() # finally create the data center in our Mininet instance
- logging.info("added data center: %s" % name)
+ logging.info("added data center: %s" % label)
return dc
def addLink(self, node1, node2, **params):
if not "ip" in params["params2"]:
params["params2"]["ip"] = self.getNextIp()
- return Dockernet.addLink(self, node1, node2, **params) # TODO we need TCLinks with user defined performance here
+ link = Dockernet.addLink(self, node1, node2, **params) # TODO we need TCLinks with user defined performance here
- def addDocker( self, name, **params ):
+ # add edge and assigned port number to graph in both directions between node1 and node2
+ self.DCNetwork_graph.add_edge(node1.name, node2.name, \
+ {'src_port': node1.ports[link.intf1], 'dst_port': node2.ports[link.intf2]})
+ self.DCNetwork_graph.add_edge(node2.name, node1.name, \
+ {'src_port': node2.ports[link.intf2], 'dst_port': node1.ports[link.intf1]})
+
+ return link
+
+ def addDocker( self, label, **params ):
"""
Wrapper for addDocker method to use custom container class.
"""
+ self.DCNetwork_graph.add_node(name)
return Dockernet.addDocker(self, name, cls=EmulatorCompute, **params)
+ def removeDocker( self, name, **params ):
+ """
+ Wrapper for removeDocker method to update graph.
+ """
+ self.DCNetwork_graph.remove_node(name)
+ return Dockernet.removeDocker(self, name, **params)
+
+ def addSwitch( self, name, add_to_graph=True, **params ):
+ """
+ Wrapper for addSwitch method to store switch also in graph.
+ """
+ if add_to_graph:
+ self.DCNetwork_graph.add_node(name)
+ return Dockernet.addSwitch(self, name, protocols='OpenFlow10,OpenFlow12,OpenFlow13', **params)
+
def getAllContainers(self):
"""
Returns a list with all containers within all data centers.
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'):
+ # get shortest path
+ path = nx.shortest_path(self.DCNetwork_graph, vnf_src_name, vnf_dst_name)
+ logging.info("Path between {0} and {1}: {2}".format(vnf_src_name, vnf_dst_name, path))
+
+ current_hop = vnf_src_name
+ for i in range(0,len(path)):
+ next_hop = path[path.index(current_hop)+1]
+ next_node = self.getNodeByName(next_hop)
+
+ if next_hop == vnf_dst_name:
+ return 0
+ elif not isinstance( next_node, OVSSwitch ):
+ logging.info("Next node: {0} is not a switch".format(next_hop1))
+ return 0
+
+
+ switch_inport = self.DCNetwork_graph[current_hop][next_hop]['dst_port']
+ next2_hop = path[path.index(current_hop)+2]
+ switch_outport = self.DCNetwork_graph[next_hop][next2_hop]['src_port']
+
+ logging.info("add flow in switch: {0} in_port: {1} out_port: {2}".format(next_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
+ if isinstance( next_node, OVSSwitch ):
+ match = 'in_port=%s' % switch_inport
+
+ if cmd=='add-flow':
+ action = 'action=%s' % switch_outport
+ s = ','
+ ofcmd = s.join([match,action])
+ elif cmd=='del-flows':
+ ofcmd = match
+ else:
+ ofcmd=''
+
+ next_node.dpctl(cmd, ofcmd)
+
+ current_hop = next_hop
+
+ return 1
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