blob: 102e3e3ddffb314cacd6ed96c053e762c69f79e3 [file] [log] [blame]
from django.db import models
from core.models import Service, PlCoreBase, Slice, Instance, Tenant, TenantWithContainer, Node, Image, User, Flavor, Subscriber, NetworkParameter, NetworkParameterType, AddressPool, Port
from core.models.plcorebase import StrippedCharField
import os
from django.db import models, transaction
from django.forms.models import model_to_dict
from django.db.models import Q
from operator import itemgetter, attrgetter, methodcaller
from core.models import Tag
from core.models.service import LeastLoadedNodeScheduler
import traceback
from xos.exceptions import *
from core.models import SlicePrivilege, SitePrivilege
from sets import Set
from xos.config import Config
MCORD_KIND = "RAN" # This should be changed later I did it fo demo
MCORD_USE_VTN = getattr(Config(), "networking_use_vtn", False)
VBBU_KIND = "RAN"
VSGW_KIND = "vSGW"
VPGWC_KIND = "RAN"
vbbu_net_types = ("s1u", "s1mme", "rru")
vpgwc_net_types = ("s5s8")
# The class to represent the service. Most of the service logic is given for us
# in the Service class but, we have some configuration that is specific for
# this example.
class VPGWCService(Service):
KIND = MCORD_KIND
class Meta:
# When the proxy field is set to True the model is represented as
# it's superclass in the database, but we can still change the python
# behavior. In this case HelloWorldServiceComplete is a Service in the
# database.
proxy = True
# The name used to find this service, all directories are named this
app_label = "vpgwc"
verbose_name = "vPGWC Service"
# This is the class to represent the tenant. Most of the logic is given to use
# in TenantWithContainer, however there is some configuration and logic that
# we need to define for this example.
class VPGWCComponent(TenantWithContainer):
class Meta:
# Same as a above, HelloWorldTenantComplete is represented as a
# TenantWithContainer, but we change the python behavior.
proxy = True
verbose_name = "VPGWC Service Component"
# The kind of the service is used on forms to differentiate this service
# from the other services.
KIND = VPGWC_KIND
# Ansible requires that the sync_attributes field contain nat_ip and nat_mac
# these will be used to determine where to SSH to for ansible.
# Getters must be defined for every attribute specified here.
sync_attributes = ("s5s8_pgw_ip", "s5s8_pgw_mac")
# default_attributes is used cleanly indicate what the default values for
# the fields are.
default_attributes = {"display_message": "New vPGWC Component", "s5s8_pgw_tag": "300"}
def __init__(self, *args, **kwargs):
mcord_services = VPGWCService.get_service_objects().all()
# When the tenant is created the default service in the form is set
# to be the first created HelloWorldServiceComplete
if mcord_services:
self._meta.get_field(
"provider_service").default = mcord_services[0].id
super(VPGWCComponent, self).__init__(*args, **kwargs)
def can_update(self, user):
#Allow creation of this model instances for non-admin users also
return True
def save(self, *args, **kwargs):
if not self.creator:
if not getattr(self, "caller", None):
# caller must be set when creating a monitoring channel since it creates a slice
raise XOSProgrammingError("ServiceComponents's self.caller was not set")
self.creator = self.caller
if not self.creator:
raise XOSProgrammingError("ServiceComponents's self.creator was not set")
super(VPGWCComponent, self).save(*args, **kwargs)
# This call needs to happen so that an instance is created for this
# tenant is created in the slice. One instance is created per tenant.
model_policy_mcord_servicecomponent(self.pk)
def save_instance(self, instance):
with transaction.atomic():
super(VPGWCComponent, self).save_instance(instance)
if instance.isolation in ["vm"]:
for ntype in vpgwc_net_types:
lan_network = self.get_lan_network(instance, ntype)
port = self.find_or_make_port(instance,lan_network)
if (ntype == "s5s8"):
port.set_parameter("s_tag", self.s5s8_pgw_tag)
port.set_parameter("neutron_port_name", "stag-%s" % self.s5s8_pgw_tag)
port.save()
else:
return True
def delete(self, *args, **kwargs):
# Delete the instance that was created for this tenant
self.cleanup_container()
super(VPGWCComponent, self).delete(*args, **kwargs)
def find_or_make_port(self, instance, network, **kwargs):
port = Port.objects.filter(instance=instance, network=network)
if port:
port = port[0]
print "port already exist", port[0]
else:
port = Port(instance=instance, network=network, **kwargs)
print "NETWORK", network, "MAKE_PORT", port
port.save()
return port
def get_lan_network(self, instance, ntype):
slice = self.provider_service.slices.all()[0]
lan_networks = [x for x in slice.networks.all() if ntype in x.name]
if not lan_networks:
raise XOSProgrammingError("No lan_network")
return lan_networks[0]
def manage_container(self):
from core.models import Instance, Flavor
if self.deleted:
return
# For container or container_vm isolation, use what TenantWithCotnainer
# provides us
slice = self.get_slice()
if slice.default_isolation in ["container_vm", "container"]:
super(VPGWCComponent,self).manage_container()
return
if not self.s5s8_pgw_tag:
raise XOSConfigurationError("S5S8_PGW_TAG is missed")
if self.instance:
# We're good.
return
instance = self.make_instance()
self.instance = instance
super(TenantWithContainer, self).save()
def get_slice(self):
if not self.provider_service.slices.count():
raise XOSConfigurationError("The service has no slices")
slice = self.provider_service.slices.all()[0]
return slice
def make_instance(self):
slice = self.provider_service.slices.all()[0]
flavors = Flavor.objects.filter(name=slice.default_flavor)
# flavors = Flavor.objects.filter(name="m1.xlarge")
if not flavors:
raise XOSConfigurationError("No default flavor")
default_flavor = slice.default_flavor
slice = self.provider_service.slices.all()[0]
if slice.default_isolation == "container_vm":
(node, parent) = ContainerVmScheduler(slice).pick()
else:
(node, parent) = LeastLoadedNodeScheduler(slice).pick()
instance = Instance(slice = slice,
node = node,
image = self.image,
creator = self.creator,
deployment = node.site_deployment.deployment,
flavor = flavors[0],
isolation = slice.default_isolation,
parent = parent)
self.save_instance(instance)
return instance
def ip_to_mac(self, ip):
(a, b, c, d) = ip.split('.')
return "02:42:%02x:%02x:%02x:%02x" % (int(a), int(b), int(c), int(d))
# Getter for the message that will appear on the webpage
# By default it is "Hello World!"
@property
def display_message(self):
return self.get_attribute(
"display_message",
self.default_attributes['display_message'])
@display_message.setter
def display_message(self, value):
self.set_attribute("display_message", value)
@property
def s5s8_pgw_tag(self):
return self.get_attribute(
"s5s8_pgw_tag",
self.default_attributes['s5s8_pgw_tag'])
@s5s8_pgw_tag.setter
def s5s8_pgw_tag(self, value):
self.set_attribute("s5s8_pgw_tag", value)
@property
def addresses(self):
if (not self.id) or (not self.instance):
return {}
addresses = {}
for ns in self.instance.ports.all():
if "s5s8_pgw" in ns.network.name.lower():
addresses["s5s8_pgw"] = (ns.ip, ns.mac)
return addresses
@property
def s5s8_pgw_ip(self):
return self.addresses.get("s5s8_pgw", (None, None))[0]
@property
def s5s8_pgw_mac(self):
return self.addresses.get("s5s8_pgw", (None, None))[1]
def model_policy_mcord_servicecomponent(pk):
# This section of code is atomic to prevent race conditions
with transaction.atomic():
# We find all of the tenants that are waiting to update
component = VPGWCComponent.objects.select_for_update().filter(pk=pk)
if not component:
return
# Since this code is atomic it is safe to always use the first tenant
component = component[0]
component.manage_container()