src/emuvim/examples/simple_topology_restapi.py - osm/vim-emu - Gitiles

 """
 Copyright (c) 2015 SONATA-NFV
 ALL RIGHTS RESERVED.

 Licensed under the Apache License, Version 2.0 (the "License");
 you may not use this file except in compliance with the License.
 You may obtain a copy of the License at

     http://www.apache.org/licenses/LICENSE-2.0

 Unless required by applicable law or agreed to in writing, software
 distributed under the License is distributed on an "AS IS" BASIS,
 WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 See the License for the specific language governing permissions and
 limitations under the License.

 Neither the name of the SONATA-NFV [, ANY ADDITIONAL AFFILIATION]
 nor the names of its contributors may be used to endorse or promote
 products derived from this software without specific prior written
 permission.

 This work has been performed in the framework of the SONATA project,
 funded by the European Commission under Grant number 671517 through
 the Horizon 2020 and 5G-PPP programmes. The authors would like to
 acknowledge the contributions of their colleagues of the SONATA
 partner consortium (www.sonata-nfv.eu).
 """
 import logging
 from mininet.log import setLogLevel
 from emuvim.dcemulator.net import DCNetwork
 from emuvim.api.rest.rest_api_endpoint import RestApiEndpoint

 from emuvim.api.zerorpc.compute import ZeroRpcApiEndpoint
 from emuvim.api.zerorpc.network import ZeroRpcApiEndpointDCNetwork

 logging.basicConfig(level=logging.INFO)


 def create_topology1():
     """
     1. Create a data center network object (DCNetwork)
     """
     net = DCNetwork(monitor=True, enable_learning=True)

     """
     1b. add a monitoring agent to the DCNetwork
     """
     #keep old zeroRPC interface to test the prometheus metric query
     mon_api = ZeroRpcApiEndpointDCNetwork("0.0.0.0", 5151)
     mon_api.connectDCNetwork(net)
     mon_api.start()
     """
     2. Add (logical) data centers to the topology
        (each data center is one "bigswitch" in our simplified
         first prototype)
     """
     dc1 = net.addDatacenter("datacenter1")
     dc2 = net.addDatacenter("datacenter2")
     dc3 = net.addDatacenter("long_data_center_name3")
     dc4 = net.addDatacenter(
         "datacenter4",
         metadata={"mydata": "we can also add arbitrary metadata to each DC"})

     """
     3. You can add additional SDN switches for data center
        interconnections to the network.
     """
     s1 = net.addSwitch("s1")

     """
     4. Add links between your data centers and additional switches
        to define you topology.
        These links can use Mininet's features to limit bw, add delay or jitter.
     """
     net.addLink(dc1, dc2)
     net.addLink("datacenter1", s1)
     net.addLink(s1, dc3)
     net.addLink(s1, "datacenter4")

     """
     5. We want to access and control our data centers from the outside,
        e.g., we want to connect an orchestrator to start/stop compute
        resources aka. VNFs (represented by Docker containers in the emulated)

        So we need to instantiate API endpoints (e.g. a zerorpc or REST
        interface). Depending on the endpoint implementations, we can connect
        one or more data centers to it, which can then be controlled through
        this API, e.g., start/stop/list compute instances.
     """
     # keep the old zeroRPC interface for the prometheus metric query test
     zapi1 = ZeroRpcApiEndpoint("0.0.0.0", 4242)
     # connect data centers to this endpoint
     zapi1.connectDatacenter(dc1)
     zapi1.connectDatacenter(dc2)
     # run API endpoint server (in another thread, don't block)
     zapi1.start()

     # create a new instance of a endpoint implementation
     api1 = RestApiEndpoint("127.0.0.1", 5001)
     # connect data centers to this endpoint
     api1.connectDatacenter(dc1)
     api1.connectDatacenter(dc2)
     api1.connectDatacenter(dc3)
     api1.connectDatacenter(dc4)
     # connect total network also, needed to do the chaining and monitoring
     api1.connectDCNetwork(net)
     # run API endpoint server (in another thread, don't block)
     api1.start()

     """
     6. Finally we are done and can start our network (the emulator).
        We can also enter the Mininet CLI to interactively interact
        with our compute resources (just like in default Mininet).
        But we can also implement fully automated experiments that
        can be executed again and again.
     """
     net.start()
     net.CLI()
     # when the user types exit in the CLI, we stop the emulator
     net.stop()


 def main():
     setLogLevel('info')  # set Mininet loglevel
     create_topology1()


 if __name__ == '__main__':
     main()
	"""
	Copyright (c) 2015 SONATA-NFV
	ALL RIGHTS RESERVED.

	Licensed under the Apache License, Version 2.0 (the "License");
	you may not use this file except in compliance with the License.
	You may obtain a copy of the License at

	http://www.apache.org/licenses/LICENSE-2.0

	Unless required by applicable law or agreed to in writing, software
	distributed under the License is distributed on an "AS IS" BASIS,
	WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	See the License for the specific language governing permissions and
	limitations under the License.

	Neither the name of the SONATA-NFV [, ANY ADDITIONAL AFFILIATION]
	nor the names of its contributors may be used to endorse or promote
	products derived from this software without specific prior written
	permission.

	This work has been performed in the framework of the SONATA project,
	funded by the European Commission under Grant number 671517 through
	the Horizon 2020 and 5G-PPP programmes. The authors would like to
	acknowledge the contributions of their colleagues of the SONATA
	partner consortium (www.sonata-nfv.eu).
	"""
	import logging
	from mininet.log import setLogLevel
	from emuvim.dcemulator.net import DCNetwork
	from emuvim.api.rest.rest_api_endpoint import RestApiEndpoint

	from emuvim.api.zerorpc.compute import ZeroRpcApiEndpoint
	from emuvim.api.zerorpc.network import ZeroRpcApiEndpointDCNetwork

	logging.basicConfig(level=logging.INFO)


	def create_topology1():
	"""
	1. Create a data center network object (DCNetwork)
	"""
	net = DCNetwork(monitor=True, enable_learning=True)

	"""
	1b. add a monitoring agent to the DCNetwork
	"""
	#keep old zeroRPC interface to test the prometheus metric query
	mon_api = ZeroRpcApiEndpointDCNetwork("0.0.0.0", 5151)
	mon_api.connectDCNetwork(net)
	mon_api.start()
	"""
	2. Add (logical) data centers to the topology
	(each data center is one "bigswitch" in our simplified
	first prototype)
	"""
	dc1 = net.addDatacenter("datacenter1")
	dc2 = net.addDatacenter("datacenter2")
	dc3 = net.addDatacenter("long_data_center_name3")
	dc4 = net.addDatacenter(
	"datacenter4",
	metadata={"mydata": "we can also add arbitrary metadata to each DC"})

	"""
	3. You can add additional SDN switches for data center
	interconnections to the network.
	"""
	s1 = net.addSwitch("s1")

	"""
	4. Add links between your data centers and additional switches
	to define you topology.
	These links can use Mininet's features to limit bw, add delay or jitter.
	"""
	net.addLink(dc1, dc2)
	net.addLink("datacenter1", s1)
	net.addLink(s1, dc3)
	net.addLink(s1, "datacenter4")

	"""
	5. We want to access and control our data centers from the outside,
	e.g., we want to connect an orchestrator to start/stop compute
	resources aka. VNFs (represented by Docker containers in the emulated)

	So we need to instantiate API endpoints (e.g. a zerorpc or REST
	interface). Depending on the endpoint implementations, we can connect
	one or more data centers to it, which can then be controlled through
	this API, e.g., start/stop/list compute instances.
	"""
	# keep the old zeroRPC interface for the prometheus metric query test
	zapi1 = ZeroRpcApiEndpoint("0.0.0.0", 4242)
	# connect data centers to this endpoint
	zapi1.connectDatacenter(dc1)
	zapi1.connectDatacenter(dc2)
	# run API endpoint server (in another thread, don't block)
	zapi1.start()

	# create a new instance of a endpoint implementation
	api1 = RestApiEndpoint("127.0.0.1", 5001)
	# connect data centers to this endpoint
	api1.connectDatacenter(dc1)
	api1.connectDatacenter(dc2)
	api1.connectDatacenter(dc3)
	api1.connectDatacenter(dc4)
	# connect total network also, needed to do the chaining and monitoring
	api1.connectDCNetwork(net)
	# run API endpoint server (in another thread, don't block)
	api1.start()

	"""
	6. Finally we are done and can start our network (the emulator).
	We can also enter the Mininet CLI to interactively interact
	with our compute resources (just like in default Mininet).
	But we can also implement fully automated experiments that
	can be executed again and again.
	"""
	net.start()
	net.CLI()
	# when the user types exit in the CLI, we stop the emulator
	net.stop()


	def main():
	setLogLevel('info') # set Mininet loglevel
	create_topology1()


	if __name__ == '__main__':
	main()