xos/synchronizer/vtnnetport.py - vtn-service - Gitiles


 # Copyright 2017-present Open Networking Foundation
 #
 # 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.


 from synchronizers.new_base.modelaccessor import *
 in_synchronizer = True

 class VTNNetwork(object):
     def __init__(self, xos_network=None):
         self.xos_network = xos_network

     def get_controller_network(self):
         for cn in self.xos_network.controllernetworks.all():
             # TODO: find the right one
             return cn
         return None

     def get_cn_field(self, fieldname):
         cn=self.get_controller_network()
         if not cn:
             return None
         return getattr(cn, fieldname)

     @property
     def id(self):
         return self.get_cn_field("net_id")

     @property
     def name(self):
         return self.xos_network.name

     @property
     def subnet(self):
         return self.get_cn_field("subnet")

     @property
     def gateway(self):
         return self.get_cn_field("gateway")

     @property
     def segmentation_id(self):
         return self.get_cn_field("segmentation_id")

     @property
     def type(self):
         return self.xos_network.template.vtn_kind

     @property
     def providerNetworks(self):
         slice = self.xos_network.owner
         service = slice.service
         if not service:
             return []

         nets=[]
         for dep in service.subscribed_dependencies.all():
             if dep.provider_service:
                 bidirectional = dep.connect_method!="private-unidirectional"
                 for net in dep.provider_service.get_composable_networks():
                     if not net.controllernetworks.exists():
                         continue

                     cn = net.controllernetworks.all()[0]

                     if not cn.net_id:
                         continue

                     nets.append({"id": cn.net_id,
                                  "name": net.name,
                                  "bidirectional": bidirectional})
         return nets

     @property
     def subscriberNetworks(self):
         slice = self.xos_network.owner
         service = slice.service
         if not service:
             return []

         nets=[]
         for dep in service.provided_dependencies.all():
             if dep.subscriber_service:
                 bidirectional = dep.connect_method!="private-unidirectional"
                 for net in dep.subscriber_service.get_composable_networks():
                     if not net.controllernetworks.exists():
                         continue

                     cn = net.controllernetworks.all()[0]

                     if not cn.net_id:
                         continue

                     nets.append({"id": cn.net_id,
                                  "name": net.name,
                                  "bidirectional": bidirectional})
         return nets

     @property
     def ownerSliceName(self):
         if self.xos_network.owner:
             return self.xos_network.owner.name
         return None

     @property
     def ownerServiceName(self):
         if self.xos_network.owner and self.xos_network.owner.service:
             return self.xos_network.owner.service.name
         return None

     def to_dict(self):
         return {"id": self.id,
                 "name": self.name,
                 "subnet": self.subnet,
                 "gateway": self.gateway,
                 "segmentation_id": self.segmentation_id,
                 "type": self.type,
                 "providerNetworks": self.providerNetworks,
                 "subscriberNetworks": self.subscriberNetworks,
                 "ownerSliceName": self.ownerSliceName,
                 "ownerServiceName": self.ownerServiceName}

     def __eq__(self, other):
         return self.to_dict() == other.to_dict()

 class VTNPort(object):
     def __init__(self, xos_port=None):
         self.xos_port = xos_port

     def get_controller_network(self):
         for cn in self.xos_port.network.controllernetworks.all():
             # TODO: find the right one
             return cn
         return None

     def is_access_network(self):
         """ Determines whether this port is attached to an access network. Currently we do this by examining the
             network template's vtn_kind field. See if there is a better way...
         """
         return self.xos_port.network.template.vtn_kind in ["VSG", ]

     def get_vm_addresses(self):
         if not self.is_access_network():
             # If not an access network, do not apply any addresses
             return []

         if not self.xos_port.instance:
             return []

         # See if the Instance has any public address (aka "VrouterTenant) service instances associated with it.
         # If so, then add each of those to the set of address pairs.

         # TODO: Perhaps this should be implemented as a link instead of a tag...

         tags = Tag.objects.filter(name="vm_public_service_instance", object_id=self.xos_port.instance.id,
                                             content_type=self.xos_port.instance.self_content_type_id)

         if not tags:
             # DEPRECATED
             # Historically, VSG instances are tagged with "vm_vrouter_tenant" instead of "vm_public_service_instance"
             tags = Tag.objects.filter(name="vm_vrouter_tenant", object_id=self.xos_port.instance.id,
                                                 content_type=self.xos_port.instance.self_content_type_id)

         address_pairs = []
         for tag in tags:
             si = ServiceInstance.objects.get(id = int(tag.value))

             # cast from Tenant to descendant class (VRouterTenant, etc)
             si = si.leaf_model

             if (not hasattr(si, "public_ip")) or (not hasattr(si, "public_mac")):
                 raise Exception("Object %s does not have public_ip and/or public_mac fields" % si)
             address_pairs.append({"ip_address": si.public_ip,
                                   "mac_address": si.public_mac})

         return address_pairs

     def get_container_addresses(self):
         if not self.is_access_network():
             # If not an access network, do not apply any addresses
             return []

         if not self.xos_port.instance:
             return []

         addrs = []
         for si in ServiceInstance.objects.all():
             # cast from tenant to its descendant class (VSGTenant, etc)
             si = si.leaf_model

             if not hasattr(si, "instance_id"):
                 # ignore ServiceInstance that don't have instances
                 continue

             if si.instance_id != self.xos_port.instance.id:
                 # ignore ServiceInstances that don't relate to our instance
                 continue

             # Check to see if there is a link public address (aka VRouterTenant)
             links = si.subscribed_links.all()
             for link in links:
                 # cast from ServiceInstance to descendant class (VRouterTenant, etc)
                 pubaddr_si = link.provider_service_instance.leaf_model
                 if hasattr(pubaddr_si, "public_ip") and hasattr(pubaddr_si, "public_mac"):
                     addrs.append({"ip_address": pubaddr_si.public_ip,
                                   "mac_address": pubaddr_si.public_mac})
         return addrs

     @property
     def vlan_id(self):
         """ Return the vlan_id associated with this instance. This assumes the instance was tagged with either a
             vlan_id or s_tag tag.
         """

         if not self.is_access_network():
             # If not an access network, do not apply any tags
             return []

         if not self.xos_port.instance:
             return None

         tags = Tag.objects.filter(content_type=model_accessor.get_content_type_id(self.xos_port.instance),
                                   object_id=self.xos_port.instance.id,
                                   name="vlan_id")

         if not tags:
             # DEPRECATED
             # Historically, VSG instances are tagged with "s_tag" instead of "vlan_id"
             tags = Tag.objects.filter(content_type=model_accessor.get_content_type_id(self.xos_port.instance),
                                       object_id=self.xos_port.instance.id,
                                       name="s_tag")

         if not tags:
             return None

         return tags[0].value

     @property
     def floating_address_pairs(self):
         # Floating_address_pairs is the set of WAN addresses that should be
         # applied to this port.

         # We only want to apply these addresses to an "access" network.


         address_pairs = self.get_vm_addresses() + self.get_container_addresses()

         return address_pairs

     @property
     def id(self):
         return self.xos_port.port_id

     @property
     def name(self):
         return "port-%s" % self.xos_port.id

     @property
     def network_id(self):
         cn = self.get_controller_network()
         if not cn:
             return None
         return cn.net_id

     @property
     def network_name(self):
         return self.xos_port.network.name

     @property
     def mac_address(self):
         return self.xos_port.mac

     @property
     def ip_address(self):
         return self.xos_port.ip

     def to_dict(self):
         return {"id": self.id,
                 "name": self.name,
                 "network_id": self.network_id,
                 "mac_address": self.mac_address,
                 "ip_address": self.ip_address,
                 "floating_address_pairs": self.floating_address_pairs,
                 "vlan_id": self.vlan_id}

     def __eq__(self, other):
         return self.to_dict() == other.to_dict()

	# Copyright 2017-present Open Networking Foundation
	#
	# 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.


	from synchronizers.new_base.modelaccessor import *
	in_synchronizer = True

	class VTNNetwork(object):
	def __init__(self, xos_network=None):
	self.xos_network = xos_network

	def get_controller_network(self):
	for cn in self.xos_network.controllernetworks.all():
	# TODO: find the right one
	return cn
	return None

	def get_cn_field(self, fieldname):
	cn=self.get_controller_network()
	if not cn:
	return None
	return getattr(cn, fieldname)

	@property
	def id(self):
	return self.get_cn_field("net_id")

	@property
	def name(self):
	return self.xos_network.name

	@property
	def subnet(self):
	return self.get_cn_field("subnet")

	@property
	def gateway(self):
	return self.get_cn_field("gateway")

	@property
	def segmentation_id(self):
	return self.get_cn_field("segmentation_id")

	@property
	def type(self):
	return self.xos_network.template.vtn_kind

	@property
	def providerNetworks(self):
	slice = self.xos_network.owner
	service = slice.service
	if not service:
	return []

	nets=[]
	for dep in service.subscribed_dependencies.all():
	if dep.provider_service:
	bidirectional = dep.connect_method!="private-unidirectional"
	for net in dep.provider_service.get_composable_networks():
	if not net.controllernetworks.exists():
	continue

	cn = net.controllernetworks.all()[0]

	if not cn.net_id:
	continue

	nets.append({"id": cn.net_id,
	"name": net.name,
	"bidirectional": bidirectional})
	return nets

	@property
	def subscriberNetworks(self):
	slice = self.xos_network.owner
	service = slice.service
	if not service:
	return []

	nets=[]
	for dep in service.provided_dependencies.all():
	if dep.subscriber_service:
	bidirectional = dep.connect_method!="private-unidirectional"
	for net in dep.subscriber_service.get_composable_networks():
	if not net.controllernetworks.exists():
	continue

	cn = net.controllernetworks.all()[0]

	if not cn.net_id:
	continue

	nets.append({"id": cn.net_id,
	"name": net.name,
	"bidirectional": bidirectional})
	return nets

	@property
	def ownerSliceName(self):
	if self.xos_network.owner:
	return self.xos_network.owner.name
	return None

	@property
	def ownerServiceName(self):
	if self.xos_network.owner and self.xos_network.owner.service:
	return self.xos_network.owner.service.name
	return None

	def to_dict(self):
	return {"id": self.id,
	"name": self.name,
	"subnet": self.subnet,
	"gateway": self.gateway,
	"segmentation_id": self.segmentation_id,
	"type": self.type,
	"providerNetworks": self.providerNetworks,
	"subscriberNetworks": self.subscriberNetworks,
	"ownerSliceName": self.ownerSliceName,
	"ownerServiceName": self.ownerServiceName}

	def __eq__(self, other):
	return self.to_dict() == other.to_dict()

	class VTNPort(object):
	def __init__(self, xos_port=None):
	self.xos_port = xos_port

	def get_controller_network(self):
	for cn in self.xos_port.network.controllernetworks.all():
	# TODO: find the right one
	return cn
	return None

	def is_access_network(self):
	""" Determines whether this port is attached to an access network. Currently we do this by examining the
	network template's vtn_kind field. See if there is a better way...
	"""
	return self.xos_port.network.template.vtn_kind in ["VSG", ]

	def get_vm_addresses(self):
	if not self.is_access_network():
	# If not an access network, do not apply any addresses
	return []

	if not self.xos_port.instance:
	return []

	# See if the Instance has any public address (aka "VrouterTenant) service instances associated with it.
	# If so, then add each of those to the set of address pairs.

	# TODO: Perhaps this should be implemented as a link instead of a tag...

	tags = Tag.objects.filter(name="vm_public_service_instance", object_id=self.xos_port.instance.id,
	content_type=self.xos_port.instance.self_content_type_id)

	if not tags:
	# DEPRECATED
	# Historically, VSG instances are tagged with "vm_vrouter_tenant" instead of "vm_public_service_instance"
	tags = Tag.objects.filter(name="vm_vrouter_tenant", object_id=self.xos_port.instance.id,
	content_type=self.xos_port.instance.self_content_type_id)

	address_pairs = []
	for tag in tags:
	si = ServiceInstance.objects.get(id = int(tag.value))

	# cast from Tenant to descendant class (VRouterTenant, etc)
	si = si.leaf_model

	if (not hasattr(si, "public_ip")) or (not hasattr(si, "public_mac")):
	raise Exception("Object %s does not have public_ip and/or public_mac fields" % si)
	address_pairs.append({"ip_address": si.public_ip,
	"mac_address": si.public_mac})

	return address_pairs

	def get_container_addresses(self):
	if not self.is_access_network():
	# If not an access network, do not apply any addresses
	return []

	if not self.xos_port.instance:
	return []

	addrs = []
	for si in ServiceInstance.objects.all():
	# cast from tenant to its descendant class (VSGTenant, etc)
	si = si.leaf_model

	if not hasattr(si, "instance_id"):
	# ignore ServiceInstance that don't have instances
	continue

	if si.instance_id != self.xos_port.instance.id:
	# ignore ServiceInstances that don't relate to our instance
	continue

	# Check to see if there is a link public address (aka VRouterTenant)
	links = si.subscribed_links.all()
	for link in links:
	# cast from ServiceInstance to descendant class (VRouterTenant, etc)
	pubaddr_si = link.provider_service_instance.leaf_model
	if hasattr(pubaddr_si, "public_ip") and hasattr(pubaddr_si, "public_mac"):
	addrs.append({"ip_address": pubaddr_si.public_ip,
	"mac_address": pubaddr_si.public_mac})
	return addrs

	@property
	def vlan_id(self):
	""" Return the vlan_id associated with this instance. This assumes the instance was tagged with either a
	vlan_id or s_tag tag.
	"""

	if not self.is_access_network():
	# If not an access network, do not apply any tags
	return []

	if not self.xos_port.instance:
	return None

	tags = Tag.objects.filter(content_type=model_accessor.get_content_type_id(self.xos_port.instance),
	object_id=self.xos_port.instance.id,
	name="vlan_id")

	if not tags:
	# DEPRECATED
	# Historically, VSG instances are tagged with "s_tag" instead of "vlan_id"
	tags = Tag.objects.filter(content_type=model_accessor.get_content_type_id(self.xos_port.instance),
	object_id=self.xos_port.instance.id,
	name="s_tag")

	if not tags:
	return None

	return tags[0].value

	@property
	def floating_address_pairs(self):
	# Floating_address_pairs is the set of WAN addresses that should be
	# applied to this port.

	# We only want to apply these addresses to an "access" network.


	address_pairs = self.get_vm_addresses() + self.get_container_addresses()

	return address_pairs

	@property
	def id(self):
	return self.xos_port.port_id

	@property
	def name(self):
	return "port-%s" % self.xos_port.id

	@property
	def network_id(self):
	cn = self.get_controller_network()
	if not cn:
	return None
	return cn.net_id

	@property
	def network_name(self):
	return self.xos_port.network.name

	@property
	def mac_address(self):
	return self.xos_port.mac

	@property
	def ip_address(self):
	return self.xos_port.ip

	def to_dict(self):
	return {"id": self.id,
	"name": self.name,
	"network_id": self.network_id,
	"mac_address": self.mac_address,
	"ip_address": self.ip_address,
	"floating_address_pairs": self.floating_address_pairs,
	"vlan_id": self.vlan_id}

	def __eq__(self, other):
	return self.to_dict() == other.to_dict()