blob: 37f4cfe2ec1aa6b04ab061a71d8948a3b8eb196b [file] [log] [blame]
import os
import socket
import sys
from django.db import models, transaction
from core.models import PlCoreBase, Site, Slice, Instance, Controller, Service
from core.models import ControllerLinkManager,ControllerLinkDeletionManager
from django.contrib.contenttypes.models import ContentType
from django.contrib.contenttypes import generic
from django.core.exceptions import ValidationError
from django.db.models import Q
# If true, then IP addresses will be allocated by the model. If false, then
# we will assume the observer handles it.
NO_OBSERVER=False
def ParseNatList(ports):
""" Support a list of ports in the format "protocol:port, protocol:port, ..."
examples:
tcp 123
tcp 123:133
tcp 123, tcp 124, tcp 125, udp 201, udp 202
User can put either a "/" or a " " between protocol and ports
Port ranges can be specified with "-" or ":"
"""
nats = []
if ports:
parts = ports.split(",")
for part in parts:
part = part.strip()
if "/" in part:
(protocol, ports) = part.split("/",1)
elif " " in part:
(protocol, ports) = part.split(None,1)
else:
raise TypeError('malformed port specifier %s, format example: "tcp 123, tcp 201:206, udp 333"' % part)
protocol = protocol.strip()
ports = ports.strip()
if not (protocol in ["udp", "tcp"]):
raise ValueError('unknown protocol %s' % protocol)
if "-" in ports:
(first, last) = ports.split("-")
first = int(first.strip())
last = int(last.strip())
portStr = "%d:%d" % (first, last)
elif ":" in ports:
(first, last) = ports.split(":")
first = int(first.strip())
last = int(last.strip())
portStr = "%d:%d" % (first, last)
else:
portStr = "%d" % int(ports)
nats.append( {"l4_protocol": protocol, "l4_port": portStr} )
return nats
def ValidateNatList(ports):
try:
ParseNatList(ports)
except Exception,e:
raise ValidationError(str(e))
class ParameterMixin(object):
# helper classes for dealing with NetworkParameter
def get_parameters(self):
parameter_dict = {}
instance_type = ContentType.objects.get_for_model(self)
for param in NetworkParameter.objects.filter(content_type__pk=instance_type.id, object_id=self.id):
parameter_dict[param.parameter.name] = param.value
return parameter_dict
def set_parameter(self, name, value):
instance_type = ContentType.objects.get_for_model(self)
existing_params = NetworkParameter.objects.filter(parameter__name=name, content_type__pk=instance_type.id, object_id=self.id)
if existing_params:
p=existing_params[0]
p.value = value
p.save()
else:
pt = NetworkParameterType.objects.get(name=name)
p = NetworkParameter(parameter=pt, content_type=instance_type, object_id=self.id, value=value)
p.save()
def unset_parameter(self, name):
instance_type = ContentType.objects.get_for_model(self)
existing_params = NetworkParameter.objects.filter(parameter__name=name, content_type__pk=instance_type.id, object_id=self.id)
for p in existing_params:
p.delete()
class NetworkTemplate(PlCoreBase, ParameterMixin):
VISIBILITY_CHOICES = (('public', 'public'), ('private', 'private'))
TRANSLATION_CHOICES = (('none', 'none'), ('NAT', 'NAT'))
TOPOLOGY_CHOICES = (('bigswitch', 'BigSwitch'), ('physical', 'Physical'), ('custom', 'Custom'))
CONTROLLER_CHOICES = ((None, 'None'), ('onos', 'ONOS'), ('custom', 'Custom'))
ACCESS_CHOICES = ((None, 'None'), ('indirect', 'Indirect'), ('direct', 'Direct'))
name = models.CharField(max_length=32)
description = models.CharField(max_length=1024, blank=True, null=True)
guaranteed_bandwidth = models.IntegerField(default=0)
visibility = models.CharField(max_length=30, choices=VISIBILITY_CHOICES, default="private")
translation = models.CharField(max_length=30, choices=TRANSLATION_CHOICES, default="none")
access = models.CharField(max_length=30, null=True, blank=True, choices=ACCESS_CHOICES, help_text="Advertise this network as a means for other slices to contact this slice")
shared_network_name = models.CharField(max_length=30, blank=True, null=True)
shared_network_id = models.CharField(null=True, blank=True, max_length=256, help_text="Quantum network")
topology_kind = models.CharField(null=False, blank=False, max_length=30, choices=TOPOLOGY_CHOICES, default="bigswitch")
controller_kind = models.CharField(null=True, blank=True, max_length=30, choices=CONTROLLER_CHOICES, default=None)
def __init__(self, *args, **kwargs):
super(NetworkTemplate, self).__init__(*args, **kwargs)
# somehow these got set wrong inside of the live database. Remove this
# code after all is well...
if (self.topology_kind=="BigSwitch"):
print >> sys.stderr, "XXX warning: topology_kind invalid case"
self.topology_kind="bigswitch"
elif (self.topology_kind=="Physical"):
print >> sys.stderr, "XXX warning: topology_kind invalid case"
self.topology_kind="physical"
elif (self.topology_kind=="Custom"):
print >> sys.stderr, "XXX warning: topology_kind invalid case"
self.toplogy_kind="custom"
def save(self, *args, **kwargs):
self.enforce_choices(self.access, self.ACCESS_CHOICES)
super(NetworkTemplate, self).save(*args, **kwargs)
def __unicode__(self): return u'%s' % (self.name)
class Network(PlCoreBase, ParameterMixin):
name = models.CharField(max_length=32)
template = models.ForeignKey(NetworkTemplate)
subnet = models.CharField(max_length=32, blank=True)
start_ip = models.CharField(max_length=32, blank=True)
end_ip = models.CharField(max_length=32, blank=True)
ports = models.CharField(max_length=1024, blank=True, null=True, validators=[ValidateNatList])
labels = models.CharField(max_length=1024, blank=True, null=True)
owner = models.ForeignKey(Slice, related_name="ownedNetworks", help_text="Slice that owns control of this Network")
guaranteed_bandwidth = models.IntegerField(default=0)
permit_all_slices = models.BooleanField(default=False)
permitted_slices = models.ManyToManyField(Slice, blank=True, related_name="availableNetworks")
slices = models.ManyToManyField(Slice, blank=True, related_name="networks", through="NetworkSlice")
instances = models.ManyToManyField(Instance, blank=True, related_name="networks", through="Port")
topology_parameters = models.TextField(null=True, blank=True)
controller_url = models.CharField(null=True, blank=True, max_length=1024)
controller_parameters = models.TextField(null=True, blank=True)
# for observer/manager
network_id = models.CharField(null=True, blank=True, max_length=256, help_text="Quantum network")
router_id = models.CharField(null=True, blank=True, max_length=256, help_text="Quantum router id")
subnet_id = models.CharField(null=True, blank=True, max_length=256, help_text="Quantum subnet id")
autoconnect = models.BooleanField(default=True, help_text="This network can be autoconnected to the slice that owns it")
def __unicode__(self): return u'%s' % (self.name)
def save(self, *args, **kwds):
if (not self.subnet) and (NO_OBSERVER):
from util.network_subnet_allocator import find_unused_subnet
self.subnet = find_unused_subnet(existing_subnets=[x.subnet for x in Network.objects.all()])
print "DEF_MOD_NET_IP", self.start_ip
super(Network, self).save(*args, **kwds)
def can_update(self, user):
return user.can_update_slice(self.owner)
@property
def nat_list(self):
return ParseNatList(self.ports)
@staticmethod
def select_by_user(user):
if user.is_admin:
qs = Network.objects.all()
else:
slices = Slice.select_by_user(user)
#slice_ids = [s.id for s in Slice.select_by_user(user)]
qs = Network.objects.filter(owner__in=slices)
return qs
def get_parameters(self):
# returns parameters from the template, updated by self.
p={}
if self.template:
p = self.template.get_parameters()
p.update(ParameterMixin.get_parameters(self))
return p
class ControllerNetwork(PlCoreBase):
objects = ControllerLinkManager()
deleted_objects = ControllerLinkDeletionManager()
# Stores the openstack ids at various controllers
network = models.ForeignKey(Network, related_name='controllernetworks')
controller = models.ForeignKey(Controller, related_name='controllernetworks')
net_id = models.CharField(null=True, blank=True, max_length=256, help_text="Quantum network")
router_id = models.CharField(null=True, blank=True, max_length=256, help_text="Quantum router id")
subnet_id = models.CharField(null=True, blank=True, max_length=256, help_text="Quantum subnet id")
subnet = models.CharField(max_length=32, blank=True)
start_ip = models.CharField(max_length=32, blank=True)
stop_ip = models.CharField(max_length=32, blank=True)
class Meta:
unique_together = ('network', 'controller')
def tologdict(self):
d=super(ControllerNetwork,self).tologdict()
try:
d['network_name']=self.network.name
d['controller_name']=self.controller.name
except:
pass
return d
@staticmethod
def select_by_user(user):
if user.is_admin:
qs = ControllerNetwork.objects.all()
else:
slices = Slice.select_by_user(user)
networks = Network.objects.filter(owner__in=slices)
qs = ControllerNetwork.objects.filter(network__in=networks)
return qs
class NetworkSlice(PlCoreBase):
# This object exists solely so we can implement the permission check when
# adding slices to networks. It adds no additional fields to the relation.
network = models.ForeignKey(Network,related_name='networkslices')
slice = models.ForeignKey(Slice,related_name='networkslices')
class Meta:
unique_together = ('network', 'slice')
def save(self, *args, **kwds):
slice = self.slice
if (slice not in self.network.permitted_slices.all()) and (slice != self.network.owner) and (not self.network.permit_all_slices):
# to add a instance to the network, then one of the following must be true:
# 1) instance's slice is in network's permittedSlices list,
# 2) instance's slice is network's owner, or
# 3) network's permitAllSlices is true
raise ValueError("Slice %s is not allowed to connect to network %s" % (str(slice), str(self.network)))
super(NetworkSlice, self).save(*args, **kwds)
def __unicode__(self): return u'%s-%s' % (self.network.name, self.slice.name)
def can_update(self, user):
return user.can_update_slice(self.slice)
@staticmethod
def select_by_user(user):
if user.is_admin:
qs = NetworkSlice.objects.all()
else:
slice_ids = [s.id for s in Slice.select_by_user(user)]
network_ids = [network.id for network in Network.select_by_user(user)]
qs = NetworkSlice.objects.filter(Q(slice__in=slice_ids) | Q(network__in=network_ids))
return qs
class Port(PlCoreBase, ParameterMixin):
network = models.ForeignKey(Network,related_name='links')
instance = models.ForeignKey(Instance, null=True, blank=True, related_name='ports')
ip = models.GenericIPAddressField(help_text="Instance ip address", blank=True, null=True)
port_id = models.CharField(null=True, blank=True, max_length=256, help_text="Neutron port id")
mac = models.CharField(null=True, blank=True, max_length=256, help_text="MAC address associated with this port")
xos_created = models.BooleanField(default=False) # True if XOS created this port in Neutron, False if port created by Neutron and observed by XOS
class Meta:
unique_together = ('network', 'instance')
def save(self, *args, **kwds):
if self.instance:
slice = self.instance.slice
if (slice not in self.network.permitted_slices.all()) and (slice != self.network.owner) and (not self.network.permit_all_slices):
# to add a instance to the network, then one of the following must be true:
# 1) instance's slice is in network's permittedSlices list,
# 2) instance's slice is network's owner, or
# 3) network's permitAllSlices is true
raise ValueError("Slice %s is not allowed to connect to network %s" % (str(slice), str(self.network)))
super(Port, self).save(*args, **kwds)
def __unicode__(self):
if self.instance:
return u'%s-%s' % (self.network.name, self.instance.instance_name)
else:
return u'%s-unboundport-%s' % (self.network.name, self.id)
def can_update(self, user):
if self.instance:
return user.can_update_slice(self.instance.slice)
if self.network:
return user.can_update_slice(self.network.owner)
return False
@staticmethod
def select_by_user(user):
if user.is_admin:
qs = Port.objects.all()
else:
instances = Instance.select_by_user(user)
instance_ids = [instance.id for instance in instances]
networks = Network.select_by_user(user)
network_ids = [network.id for network in networks]
qs = Port.objects.filter(Q(instance__in=instance_ids) | Q(network__in=network_ids))
return qs
def get_parameters(self):
# returns parameters from the network, updated by self.
p={}
if self.network:
p = self.network.get_parameters()
p.update(ParameterMixin.get_parameters(self))
return p
class Router(PlCoreBase):
name = models.CharField(max_length=32)
owner = models.ForeignKey(Slice, related_name="routers")
permittedNetworks = models.ManyToManyField(Network, blank=True, related_name="availableRouters")
networks = models.ManyToManyField(Network, blank=True, related_name="routers")
def __unicode__(self): return u'%s' % (self.name)
def can_update(self, user):
return user.can_update_slice(self.owner)
class NetworkParameterType(PlCoreBase):
name = models.SlugField(help_text="The name of this parameter", max_length=128)
description = models.CharField(max_length=1024)
def __unicode__(self): return u'%s' % (self.name)
class NetworkParameter(PlCoreBase):
parameter = models.ForeignKey(NetworkParameterType, related_name="networkparameters", help_text="The type of the parameter")
value = models.CharField(help_text="The value of this parameter", max_length=1024)
# The required fields to do a ObjectType lookup, and object_id assignment
content_type = models.ForeignKey(ContentType)
object_id = models.PositiveIntegerField()
content_object = generic.GenericForeignKey('content_type', 'object_id')
def __unicode__(self):
return self.parameter.name
class AddressPool(PlCoreBase):
name = models.CharField(max_length=32)
addresses = models.TextField(blank=True, null=True)
gateway_ip = models.CharField(max_length=32, null=True)
gateway_mac = models.CharField(max_length=32, null=True)
cidr = models.CharField(max_length=32, null=True)
inuse = models.TextField(blank=True, null=True)
service = models.ForeignKey(Service, related_name="addresspools", null=True, blank=True)
def __unicode__(self): return u'%s' % (self.name)
def get_address(self):
with transaction.atomic():
ap = AddressPool.objects.get(pk=self.pk)
if ap.addresses:
avail_ips = ap.addresses.split()
else:
avail_ips = []
if ap.inuse:
inuse_ips = ap.inuse.split()
else:
inuse_ips = []
while avail_ips:
addr = avail_ips.pop(0)
if addr in inuse_ips:
# This may have happened if someone re-ran the tosca
# recipe and 'refilled' the AddressPool while some addresses
# were still in use.
continue
inuse_ips.insert(0,addr)
ap.inuse = " ".join(inuse_ips)
ap.addresses = " ".join(avail_ips)
ap.save()
return addr
addr = None
return addr
def put_address(self, addr):
with transaction.atomic():
ap = AddressPool.objects.get(pk=self.pk)
addresses = ap.addresses or ""
parts = addresses.split()
if addr not in parts:
parts.insert(0,addr)
ap.addresses = " ".join(parts)
inuse = ap.inuse or ""
parts = inuse.split()
if addr in parts:
parts.remove(addr)
ap.inuse = " ".join(parts)
ap.save()