emuvim/dcemulator/node.py - osm/vim-emu - Gitiles

 """
 Distributed Cloud Emulator (dcemulator)
 (c) 2015 by Manuel Peuster <manuel.peuster@upb.de>
 """
 from mininet.node import Docker
 import logging


 DCDPID_BASE = 1000  # start of switch dpid's used for data center switches


 class EmulatorCompute(Docker):
     """
     Emulator specific compute node class.
     Inherits from Dockernet's Docker host class.
     Represents a single container connected to a (logical)
     data center.
     We can add emulator specific helper functions to it.
     """

     def __init__(
             self, name, dimage, **kwargs):
         logging.debug("Create EmulatorCompute instance: %s" % name)
         self.datacenter = None  # pointer to current DC

         # call original Docker.__init__
         Docker.__init__(self, name, dimage, **kwargs)

     def getNetworkStatus(self):
         """
         Helper method to receive information about the virtual networks
         this compute instance is connected to.
         """
         # format list of tuples (name, Ip, MAC, isUp, status)
         return [(str(i), i.IP(), i.MAC(), i.isUp(), i.status())
                 for i in self.intfList()]

     def getStatus(self):
         """
         Helper method to receive information about this compute instance.
         """
         status = {}
         status["name"] = self.name
         status["network"] = self.getNetworkStatus()
         status["image"] = self.dimage
         status["cpu_quota"] = self.cpu_quota
         status["cpu_period"] = self.cpu_period
         status["cpu_shares"] = self.cpu_shares
         status["cpuset"] = self.cpuset
         status["mem_limit"] = self.mem_limit
         status["memswap_limit"] = self.memswap_limit
         status["state"] = self.dcli.inspect_container(self.dc)["State"]
         status["id"] = self.dcli.inspect_container(self.dc)["Id"]
         status["datacenter"] = (None if self.datacenter is None
                                 else self.datacenter.name)
         return status


 class Datacenter(object):
     """
     Represents a logical data center to which compute resources
     (Docker containers) can be added at runtime.

     Will also implement resource bookkeeping in later versions.
     """

     def __init__(self, name):
         self.net = None  # DCNetwork to which we belong
         self.name = name
         self.switch = None  # first prototype assumes one "bigswitch" per DC
         self.containers = {}  # keep track of running containers

     def _get_next_dc_dpid(self):
         global DCDPID_BASE
         DCDPID_BASE += 1
         return DCDPID_BASE

     def create(self):
         """
         Each data center is represented by a single switch to which
         compute resources can be connected at run time.

         TODO: This will be changed in the future to support multiple networks
         per data center
         """
         self.switch = self.net.addSwitch(
             "%s.s1" % self.name, dpid=hex(self._get_next_dc_dpid())[2:])
         logging.debug("created data center switch: %s" % str(self.switch))

     def start(self):
         pass

     def startCompute(self, name, image=None, network=None):
         """
         Create a new container as compute resource and connect it to this
         data center.

         TODO: This interface will change to support multiple networks to which
         a single container can be connected.
         """
         assert name is not None
         # no duplications
         if name in [c.name for c in self.net.getAllContainers()]:
             raise Exception("Container with name %s already exists." % name)
         # set default parameter
         if image is None:
             image = "ubuntu"
         if network is None:
             network = {}  # {"ip": "10.0.0.254/8"}
         # create the container and connect it to the given network
         d = self.net.addDocker("%s" % (name), dimage=image)
         self.net.addLink(d, self.switch, params1=network)
         # do bookkeeping
         self.containers[name] = d
         d.datacenter = self
         return d  # we might use UUIDs for naming later on

     def stopCompute(self, name):
         """
         Stop and remove a container from this data center.
         """
         assert name is not None
         if name not in self.containers:
             raise Exception("Container with name %s not found." % name)
         self.net.removeLink(
             link=None, node1=self.containers[name], node2=self.switch)
         self.net.removeDocker("%s" % (name))
         del self.containers[name]
         return True

     def listCompute(self):
         """
         Return a list of all running containers assigned to this
         data center.
         """
         return self.containers.itervalues()
	"""
	Distributed Cloud Emulator (dcemulator)
	(c) 2015 by Manuel Peuster <manuel.peuster@upb.de>
	"""
	from mininet.node import Docker
	import logging


	DCDPID_BASE = 1000 # start of switch dpid's used for data center switches


	class EmulatorCompute(Docker):
	"""
	Emulator specific compute node class.
	Inherits from Dockernet's Docker host class.
	Represents a single container connected to a (logical)
	data center.
	We can add emulator specific helper functions to it.
	"""

	def __init__(
	self, name, dimage, **kwargs):
	logging.debug("Create EmulatorCompute instance: %s" % name)
	self.datacenter = None # pointer to current DC

	# call original Docker.__init__
	Docker.__init__(self, name, dimage, **kwargs)

	def getNetworkStatus(self):
	"""
	Helper method to receive information about the virtual networks
	this compute instance is connected to.
	"""
	# format list of tuples (name, Ip, MAC, isUp, status)
	return [(str(i), i.IP(), i.MAC(), i.isUp(), i.status())
	for i in self.intfList()]

	def getStatus(self):
	"""
	Helper method to receive information about this compute instance.
	"""
	status = {}
	status["name"] = self.name
	status["network"] = self.getNetworkStatus()
	status["image"] = self.dimage
	status["cpu_quota"] = self.cpu_quota
	status["cpu_period"] = self.cpu_period
	status["cpu_shares"] = self.cpu_shares
	status["cpuset"] = self.cpuset
	status["mem_limit"] = self.mem_limit
	status["memswap_limit"] = self.memswap_limit
	status["state"] = self.dcli.inspect_container(self.dc)["State"]
	status["id"] = self.dcli.inspect_container(self.dc)["Id"]
	status["datacenter"] = (None if self.datacenter is None
	else self.datacenter.name)
	return status


	class Datacenter(object):
	"""
	Represents a logical data center to which compute resources
	(Docker containers) can be added at runtime.

	Will also implement resource bookkeeping in later versions.
	"""

	def __init__(self, name):
	self.net = None # DCNetwork to which we belong
	self.name = name
	self.switch = None # first prototype assumes one "bigswitch" per DC
	self.containers = {} # keep track of running containers

	def _get_next_dc_dpid(self):
	global DCDPID_BASE
	DCDPID_BASE += 1
	return DCDPID_BASE

	def create(self):
	"""
	Each data center is represented by a single switch to which
	compute resources can be connected at run time.

	TODO: This will be changed in the future to support multiple networks
	per data center
	"""
	self.switch = self.net.addSwitch(
	"%s.s1" % self.name, dpid=hex(self._get_next_dc_dpid())[2:])
	logging.debug("created data center switch: %s" % str(self.switch))

	def start(self):
	pass

	def startCompute(self, name, image=None, network=None):
	"""
	Create a new container as compute resource and connect it to this
	data center.

	TODO: This interface will change to support multiple networks to which
	a single container can be connected.
	"""
	assert name is not None
	# no duplications
	if name in [c.name for c in self.net.getAllContainers()]:
	raise Exception("Container with name %s already exists." % name)
	# set default parameter
	if image is None:
	image = "ubuntu"
	if network is None:
	network = {} # {"ip": "10.0.0.254/8"}
	# create the container and connect it to the given network
	d = self.net.addDocker("%s" % (name), dimage=image)
	self.net.addLink(d, self.switch, params1=network)
	# do bookkeeping
	self.containers[name] = d
	d.datacenter = self
	return d # we might use UUIDs for naming later on

	def stopCompute(self, name):
	"""
	Stop and remove a container from this data center.
	"""
	assert name is not None
	if name not in self.containers:
	raise Exception("Container with name %s not found." % name)
	self.net.removeLink(
	link=None, node1=self.containers[name], node2=self.switch)
	self.net.removeDocker("%s" % (name))
	del self.containers[name]
	return True

	def listCompute(self):
	"""
	Return a list of all running containers assigned to this
	data center.
	"""
	return self.containers.itervalues()