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re2o/topologie/models.py
2019-09-19 23:01:30 +02:00

1031 lines
33 KiB
Python

# -*- mode: python; coding: utf-8 -*-
# Re2o est un logiciel d'administration développé initiallement au rezometz. Il
# se veut agnostique au réseau considéré, de manière à être installable en
# quelques clics.
#
# Copyright © 2017 Gabriel Détraz
# Copyright © 2017 Goulven Kermarec
# Copyright © 2017 Augustin Lemesle
#
# This program is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation; either version 2 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License along
# with this program; if not, write to the Free Software Foundation, Inc.,
# 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
"""
Definition des modèles de l'application topologie.
On défini les models suivants :
- stack (id, id_min, id_max et nom) regrouppant les switches
- switch : nom, nombre de port, et interface
machine correspondante (mac, ip, etc) (voir machines.models.interface)
- Port: relié à un switch parent par foreign_key, numero du port,
relié de façon exclusive à un autre port, une machine
(serveur ou borne) ou une prise murale
- room : liste des prises murales, nom et commentaire de l'état de
la prise
"""
from __future__ import unicode_literals
import itertools
from django.db import models
from django.db.models.signals import post_save, post_delete
from django.utils.functional import cached_property
from django.core.cache import cache
from django.dispatch import receiver
from django.core.exceptions import ValidationError
from django.db import IntegrityError
from django.db import transaction
from django.utils.translation import ugettext_lazy as _
from reversion import revisions as reversion
from preferences.models import (
OptionalTopologie,
RadiusKey,
SwitchManagementCred
)
from machines.models import Machine, regen
from re2o.mixins import AclMixin, RevMixin
class Stack(AclMixin, RevMixin, models.Model):
"""Un objet stack. Regrouppe des switchs en foreign key
,contient une id de stack, un switch id min et max dans
le stack"""
name = models.CharField(max_length=32, blank=True, null=True)
stack_id = models.CharField(max_length=32, unique=True)
details = models.CharField(max_length=255, blank=True, null=True)
member_id_min = models.PositiveIntegerField()
member_id_max = models.PositiveIntegerField()
class Meta:
permissions = (
("view_stack", _("Can view a stack object")),
)
verbose_name = _("switches stack")
verbose_name_plural = _("switches stacks")
def __str__(self):
return " ".join([self.name, self.stack_id])
def save(self, *args, **kwargs):
self.clean()
if not self.name:
self.name = self.stack_id
super(Stack, self).save(*args, **kwargs)
def clean(self):
""" Verification que l'id_max < id_min"""
if self.member_id_max < self.member_id_min:
raise ValidationError(
{'member_id_max': _("The maximum ID is less than the"
" minimum ID.")}
)
class AccessPoint(AclMixin, Machine):
"""Define a wireless AP. Inherit from machines.interfaces
Definition pour une borne wifi , hérite de machines.interfaces
"""
location = models.CharField(
max_length=255,
help_text=_("Details about the AP's location"),
blank=True,
null=True
)
class Meta:
permissions = (
("view_accesspoint", _("Can view an access point object")),
)
verbose_name = _("access point")
verbose_name_plural = _("access points")
def port(self):
"""Return the queryset of ports for this device"""
return Port.objects.filter(
machine_interface__machine=self
)
def switch(self):
"""Return the switch where this is plugged"""
return Switch.objects.filter(
ports__machine_interface__machine=self
)
def building(self):
"""
Return the building of the AP/Server (building of the switchs
connected to...)
"""
return Building.objects.filter(
switchbay__switch=self.switch()
)
@cached_property
def short_name(self):
return str(self.interface_set.first().domain.name)
@classmethod
def all_ap_in(cls, building_instance):
"""Get a building as argument, returns all ap of a building"""
return cls.objects.filter(
interface__port__switch__switchbay__building=building_instance
)
def __str__(self):
return str(self.interface_set.first())
class Server(Machine):
"""
Dummy class, to retrieve servers of a building, or get switch of a server
"""
class Meta:
proxy = True
def port(self):
"""Return the queryset of ports for this device"""
return Port.objects.filter(
machine_interface__machine=self
)
def switch(self):
"""Return the switch where this is plugged"""
return Switch.objects.filter(
ports__machine_interface__machine=self
)
def building(self):
"""
Return the building of the AP/Server
(building of the switchs connected to...)
"""
return Building.objects.filter(
switchbay__switch=self.switch()
)
@cached_property
def short_name(self):
return str(self.interface_set.first().domain.name)
@classmethod
def all_server_in(cls, building_instance):
"""Get a building as argument, returns all server of a building"""
return cls.objects.filter(
interface__port__switch__switchbay__building=building_instance
).exclude(accesspoint__isnull=False)
def __str__(self):
return str(self.interface_set.first())
class Switch(AclMixin, Machine):
""" Definition d'un switch. Contient un nombre de ports (number),
un emplacement (location), un stack parent (optionnel, stack)
et un id de membre dans le stack (stack_member_id)
relié en onetoone à une interface
Pourquoi ne pas avoir fait hériter switch de interface ?
Principalement par méconnaissance de la puissance de cette façon de faire.
Ceci étant entendu, django crée en interne un onetoone, ce qui a un
effet identique avec ce que l'on fait ici
Validation au save que l'id du stack est bien dans le range id_min
id_max de la stack parente"""
number = models.PositiveIntegerField(
help_text=_("Number of ports")
)
stack = models.ForeignKey(
'topologie.Stack',
blank=True,
null=True,
on_delete=models.SET_NULL
)
stack_member_id = models.PositiveIntegerField(
blank=True,
null=True
)
model = models.ForeignKey(
'topologie.ModelSwitch',
blank=True,
null=True,
on_delete=models.SET_NULL,
help_text=_("Switch model")
)
switchbay = models.ForeignKey(
'topologie.SwitchBay',
blank=True,
null=True,
on_delete=models.SET_NULL,
)
radius_key = models.ForeignKey(
'preferences.RadiusKey',
blank=True,
null=True,
on_delete=models.PROTECT,
help_text=_("RADIUS key of the switch")
)
management_creds = models.ForeignKey(
'preferences.SwitchManagementCred',
blank=True,
null=True,
on_delete=models.PROTECT,
help_text=_("Management credentials for the switch")
)
automatic_provision = models.BooleanField(
default=False,
help_text=_("Automatic provision for the switch")
)
class Meta:
unique_together = ('stack', 'stack_member_id')
permissions = (
("view_switch", _("Can view a switch object")),
)
verbose_name = _("switch")
verbose_name_plural = _("switches")
def clean(self):
""" Verifie que l'id stack est dans le bon range
Appelle également le clean de la classe parente"""
super(Switch, self).clean()
if self.stack is not None:
if self.stack_member_id is not None:
if (self.stack_member_id > self.stack.member_id_max) or\
(self.stack_member_id < self.stack.member_id_min):
raise ValidationError(
{'stack_member_id': _("The switch ID exceeds the"
" limits allowed by the stack.")}
)
else:
raise ValidationError(
{'stack_member_id': _("The stack member ID can't be"
" void.")}
)
def create_ports(self, begin, end):
""" Crée les ports de begin à end si les valeurs données
sont cohérentes. """
if end < begin:
raise ValidationError(_("The end port is less than the start"
" port."))
ports_to_create = range(begin, end + 1)
existing_ports = Port.objects.filter(switch=self.switch).values_list('port', flat=True)
non_existing_ports = list(set(ports_to_create) - set(existing_ports))
if len(non_existing_ports) + existing_ports.count() > self.number:
raise ValidationError(_("This switch can't have that many ports."))
with transaction.atomic(), reversion.create_revision():
reversion.set_comment(_("Creation"))
Port.objects.bulk_create([Port(switch=self.switch, port=port_id) for port_id in non_existing_ports])
def main_interface(self):
""" Returns the 'main' interface of the switch
It must the the management interface for that device"""
switch_iptype = OptionalTopologie.get_cached_value('switchs_ip_type')
if switch_iptype:
return self.interface_set.filter(machine_type__ip_type=switch_iptype).first()
return self.interface_set.first()
@cached_property
def get_name(self):
return self.name or getattr(self.main_interface(), 'domain', 'Unknown')
@cached_property
def get_radius_key(self):
"""Retourne l'objet de la clef radius de ce switch"""
return self.radius_key or RadiusKey.objects.filter(default_switch=True).first()
@cached_property
def get_radius_key_value(self):
"""Retourne la valeur en str de la clef radius, none si il n'y en a pas"""
if self.get_radius_key:
return self.get_radius_key.radius_key
else:
return None
@cached_property
def get_management_cred(self):
"""Retourne l'objet des creds de managament de ce switch"""
return self.management_creds or SwitchManagementCred.objects.filter(default_switch=True).first()
@cached_property
def get_management_cred_value(self):
"""Retourne un dict des creds de management du switch"""
if self.get_management_cred:
return {'id': self.get_management_cred.management_id, 'pass': self.get_management_cred.management_pass}
else:
return None
@cached_property
def rest_enabled(self):
return OptionalTopologie.get_cached_value('switchs_rest_management') or self.automatic_provision
@cached_property
def web_management_enabled(self):
sw_management = OptionalTopologie.get_cached_value('switchs_web_management')
sw_management_ssl = OptionalTopologie.get_cached_value('switchs_web_management_ssl')
if sw_management_ssl:
return "ssl"
elif sw_management:
return "plain"
else:
return self.automatic_provision
@cached_property
def ipv4(self):
"""Return the switch's management ipv4"""
return str(self.main_interface().ipv4)
@cached_property
def ipv6(self):
"""Returne the switch's management ipv6"""
return str(self.main_interface().ipv6().first())
@cached_property
def interfaces_subnet(self):
"""Return dict ip:subnet for all ip of the switch"""
return dict((str(interface.ipv4), interface.machine_type.ip_type.ip_set_full_info) for interface in self.interface_set.all())
@cached_property
def interfaces6_subnet(self):
"""Return dict ip6:subnet for all ipv6 of the switch"""
return dict((str(interface.ipv6().first()), interface.machine_type.ip_type.ip6_set_full_info) for interface in self.interface_set.all())
@cached_property
def list_modules(self):
"""Return modules of that switch, list of dict (rank, reference)"""
modules = []
if getattr(self.model, 'is_modular', None):
if self.model.is_itself_module:
modules.append((1, self.model.reference))
for module_of_self in self.moduleonswitch_set.all():
modules.append((module_of_self.slot, module_of_self.module.reference))
return modules
@cached_property
def get_dormitory(self):
"""Returns the dormitory of that switch"""
if self.switchbay:
return self.switchbay.building.dormitory
else:
return None
@classmethod
def nothing_profile(cls):
"""Return default nothing port profile"""
nothing_profile, _created = PortProfile.objects.get_or_create(
profil_default='nothing',
name='nothing',
radius_type='NO'
)
return nothing_profile
def profile_type_or_nothing(self, profile_type):
"""Return the profile for a profile_type of this switch
If exists, returns the defined default profile for a profile type on the dormitory which
the switch belongs
Otherwise, returns the nothing profile"""
profile_queryset = PortProfile.objects.filter(profil_default=profile_type)
if self.get_dormitory:
port_profile = profile_queryset.filter(on_dormitory=self.get_dormitory).first() or profile_queryset.first()
else:
port_profile = profile_queryset.first()
return port_profile or Switch.nothing_profile()
@cached_property
def default_uplink_profile(self):
"""Default uplink profile for that switch -- in cache"""
return self.profile_type_or_nothing('uplink')
@cached_property
def default_access_point_profile(self):
"""Default ap profile for that switch -- in cache"""
return self.profile_type_or_nothing('access_point')
@cached_property
def default_room_profile(self):
"""Default room profile for that switch -- in cache"""
return self.profile_type_or_nothing('room')
@cached_property
def default_asso_machine_profile(self):
"""Default asso machine profile for that switch -- in cache"""
return self.profile_type_or_nothing('asso_machine')
def __str__(self):
return str(self.get_name)
class ModelSwitch(AclMixin, RevMixin, models.Model):
"""Un modèle (au sens constructeur) de switch"""
reference = models.CharField(max_length=255)
commercial_name = models.CharField(
max_length=255,
null=True,
blank=True
)
constructor = models.ForeignKey(
'topologie.ConstructorSwitch',
on_delete=models.PROTECT
)
firmware = models.CharField(
max_length=255,
null=True,
blank=True
)
is_modular = models.BooleanField(
default=False,
help_text=_("The switch model is modular."),
)
is_itself_module = models.BooleanField(
default=False,
help_text=_("The switch is considered as a module."),
)
class Meta:
permissions = (
("view_modelswitch", _("Can view a switch model object")),
)
verbose_name = _("switch model")
verbose_name_plural = _("switch models")
def __str__(self):
if self.commercial_name:
return str(self.constructor) + ' ' + str(self.commercial_name)
else:
return str(self.constructor) + ' ' + self.reference
class ModuleSwitch(AclMixin, RevMixin, models.Model):
"""A module of a switch"""
reference = models.CharField(
max_length=255,
help_text=_("Reference of a module"),
verbose_name=_("Module reference")
)
comment = models.CharField(
max_length=255,
null=True,
blank=True,
help_text=_("Comment"),
verbose_name=_("Comment")
)
class Meta:
permissions = (
("view_moduleswitch", _("Can view a switch module object")),
)
verbose_name = _("switch module")
verbose_name_plural = _("switch modules")
def __str__(self):
return str(self.reference)
class ModuleOnSwitch(AclMixin, RevMixin, models.Model):
"""Link beetween module and switch"""
module = models.ForeignKey('ModuleSwitch', on_delete=models.CASCADE)
switch = models.ForeignKey('Switch', on_delete=models.CASCADE)
slot = models.CharField(
max_length=15,
help_text=_("Slot on switch"),
verbose_name=_("Slot")
)
class Meta:
permissions = (
("view_moduleonswitch", _("Can view a link between switch and"
" module object")),
)
verbose_name = _("link between switch and module")
verbose_name_plural = _("links between switch and module")
unique_together = ['slot', 'switch']
def __str__(self):
return _("On slot ") + str(self.slot) + _(" of ") + str(self.switch)
class ConstructorSwitch(AclMixin, RevMixin, models.Model):
"""Un constructeur de switch"""
name = models.CharField(max_length=255)
class Meta:
permissions = (
("view_constructorswitch", _("Can view a switch constructor"
" object")),
)
verbose_name = _("switch constructor")
verbose_name_plural = ("switch constructors")
def __str__(self):
return self.name
class SwitchBay(AclMixin, RevMixin, models.Model):
"""Une baie de brassage"""
name = models.CharField(max_length=255)
building = models.ForeignKey(
'Building',
on_delete=models.PROTECT
)
info = models.CharField(
max_length=255,
blank=True,
null=True
)
class Meta:
permissions = (
("view_switchbay", _("Can view a switch bay object")),
)
verbose_name = _("switch bay")
verbose_name_plural = _("switch bays")
def __str__(self):
return self.name
class Dormitory(AclMixin, RevMixin, models.Model):
"""A student accomodation/dormitory
Une résidence universitaire"""
name = models.CharField(max_length=255)
class Meta:
permissions = (
("view_dormitory", _("Can view a dormitory object")),
)
verbose_name = _("dormitory")
verbose_name_plural = _("dormitories")
def all_ap_in(self):
"""Returns all ap of the dorms"""
return AccessPoint.all_ap_in(self.building_set.all())
@classmethod
def is_multiple_dorms(cls):
multiple_dorms = cache.get('multiple_dorms')
if multiple_dorms:
return multiple_dorms
else:
return cache.get_or_set('multiple_dorms', cls.objects.count() > 1)
def __str__(self):
return self.name
class Building(AclMixin, RevMixin, models.Model):
"""A building of a dormitory
Un batiment"""
name = models.CharField(max_length=255)
dormitory = models.ForeignKey(
'Dormitory',
on_delete=models.PROTECT,
)
class Meta:
permissions = (
("view_building", _("Can view a building object")),
)
verbose_name = _("building")
verbose_name_plural = _("buildings")
def all_ap_in(self):
"""Returns all ap of the building"""
return AccessPoint.all_ap_in(self)
def get_name(self):
if Dormitory.is_multiple_dorms():
return self.dormitory.name + " : " + self.name
else:
return self.name
@cached_property
def cached_name(self):
return self.get_name()
def __str__(self):
return self.cached_name
class Port(AclMixin, RevMixin, models.Model):
""" Definition d'un port. Relié à un switch(foreign_key),
un port peut etre relié de manière exclusive à :
- une chambre (room)
- une machine (serveur etc) (machine_interface)
- un autre port (uplink) (related)
Champs supplémentaires :
- RADIUS (mode STRICT : connexion sur port uniquement si machine
d'un adhérent à jour de cotisation et que la chambre est également à
jour de cotisation
mode COMMON : vérification uniquement du statut de la machine
mode NO : accepte toute demande venant du port et place sur le vlan normal
mode BLOQ : rejet de toute authentification
- vlan_force : override la politique générale de placement vlan, permet
de forcer un port sur un vlan particulier. S'additionne à la politique
RADIUS"""
switch = models.ForeignKey(
'Switch',
related_name="ports",
on_delete=models.CASCADE
)
port = models.PositiveIntegerField()
room = models.ForeignKey(
'Room',
on_delete=models.PROTECT,
blank=True,
null=True
)
machine_interface = models.ForeignKey(
'machines.Interface',
on_delete=models.SET_NULL,
blank=True,
null=True
)
related = models.OneToOneField(
'self',
null=True,
blank=True,
related_name='related_port'
)
custom_profile = models.ForeignKey(
'PortProfile',
on_delete=models.PROTECT,
blank=True,
null=True
)
state = models.BooleanField(
default=True,
help_text=_("Port state Active"),
verbose_name=_("Port state Active")
)
details = models.CharField(max_length=255, blank=True)
class Meta:
unique_together = ('switch', 'port')
permissions = (
("view_port", _("Can view a port object")),
)
verbose_name = _("port")
verbose_name_plural = _("ports")
@cached_property
def pretty_name(self):
"""More elaborated name for label on switch conf"""
if self.related:
return _("Uplink: ") + self.related.switch.short_name
elif self.machine_interface:
return _("Machine: ") + str(self.machine_interface.domain)
elif self.room:
return _("Room: ") + str(self.room)
else:
return _("Unknown")
@cached_property
def get_port_profile(self):
"""Return the config profil for this port
:returns: the profile of self (port)
If is defined a custom profile, returns it
elIf a default profile is defined for its dormitory, returns it
Else, returns the global default profil
If not exists, create a nothing profile"""
if self.custom_profile:
return self.custom_profile
elif self.related:
return self.switch.default_uplink_profile
elif self.machine_interface:
if hasattr(self.machine_interface.machine, 'accesspoint'):
return self.switch.default_access_point_profile
else:
return self.switch.default_asso_machine_profile
elif self.room:
return self.switch.default_room_profile
else:
return Switch.nothing_profile()
@classmethod
def get_instance(cls, portid, *_args, **kwargs):
return (cls.objects
.select_related('machine_interface__domain__extension')
.select_related('machine_interface__machine__switch')
.select_related('room')
.select_related('related')
.prefetch_related('switch__interface_set__domain__extension')
.get(pk=portid))
def make_port_related(self):
""" Synchronise le port distant sur self"""
related_port = self.related
related_port.related = self
related_port.save()
def clean_port_related(self):
""" Supprime la relation related sur self"""
related_port = self.related_port
related_port.related = None
related_port.save()
def clean(self):
""" Verifie que un seul de chambre, interface_parent et related_port
est rempli. Verifie que le related n'est pas le port lui-même....
Verifie que le related n'est pas déjà occupé par une machine ou une
chambre. Si ce n'est pas le cas, applique la relation related
Si un port related point vers self, on nettoie la relation
A priori pas d'autre solution que de faire ça à la main. A priori
tout cela est dans un bloc transaction, donc pas de problème de
cohérence"""
if hasattr(self, 'switch'):
if self.port > self.switch.number:
raise ValidationError(
_("The port can't exist, its number is too great.")
)
if (self.room and self.machine_interface or
self.room and self.related or
self.machine_interface and self.related):
raise ValidationError(
_("Room, interface and related port are mutually exclusive.")
)
if self.related == self:
raise ValidationError(_("A port can't be related to itself."))
if self.related and not self.related.related:
if self.related.machine_interface or self.related.room:
raise ValidationError(
_("The related port is already used, please clear it"
" before creating the relation.")
)
else:
self.make_port_related()
elif hasattr(self, 'related_port'):
self.clean_port_related()
def __str__(self):
return str(self.switch) + " - " + str(self.port)
class Room(AclMixin, RevMixin, models.Model):
"""Une chambre/local contenant une prise murale"""
name = models.CharField(max_length=255)
details = models.CharField(max_length=255, blank=True)
building = models.ForeignKey(
'Building',
on_delete=models.PROTECT,
)
class Meta:
ordering = ['building__name']
permissions = (
("view_room", _("Can view a room object")),
)
verbose_name = _("room")
verbose_name_plural = _("rooms")
unique_together = ('name', 'building')
def __str__(self):
return self.building.cached_name + ' ' + self.name
class PortProfile(AclMixin, RevMixin, models.Model):
"""Contains the information of the ports' configuration for a switch"""
TYPES = (
('NO', 'NO'),
('802.1X', '802.1X'),
('MAC-radius', _("MAC-RADIUS")),
)
MODES = (
('STRICT', 'STRICT'),
('COMMON', 'COMMON'),
)
SPEED = (
('10-half', '10-half'),
('100-half', '100-half'),
('10-full', '10-full'),
('100-full', '100-full'),
('1000-full', '1000-full'),
('auto', 'auto'),
('auto-10', 'auto-10'),
('auto-100', 'auto-100'),
)
PROFIL_DEFAULT = (
('room', _("Room")),
('access_point', _("Access point")),
('uplink', _("Uplink")),
('asso_machine', _("Organisation machine")),
('nothing', _("Nothing")),
)
name = models.CharField(max_length=255, verbose_name=_("Name"))
profil_default = models.CharField(
max_length=32,
choices=PROFIL_DEFAULT,
blank=True,
null=True,
verbose_name=_("Default profile")
)
on_dormitory = models.ForeignKey(
'topologie.Dormitory',
related_name='dormitory_ofprofil',
on_delete=models.SET_NULL,
blank=True,
null=True,
verbose_name=_("Profil on dormitory")
)
vlan_untagged = models.ForeignKey(
'machines.Vlan',
related_name='vlan_untagged',
on_delete=models.SET_NULL,
blank=True,
null=True,
verbose_name=_("VLAN untagged")
)
vlan_tagged = models.ManyToManyField(
'machines.Vlan',
related_name='vlan_tagged',
blank=True,
verbose_name=_("VLAN(s) tagged")
)
radius_type = models.CharField(
max_length=32,
choices=TYPES,
help_text=_("Type of RADIUS authentication : inactive, MAC-address or"
" 802.1X"),
verbose_name=_("RADIUS type")
)
radius_mode = models.CharField(
max_length=32,
choices=MODES,
default='COMMON',
help_text=_("In case of MAC-authentication : mode COMMON or STRICT on"
" this port"),
verbose_name=_("RADIUS mode")
)
speed = models.CharField(
max_length=32,
choices=SPEED,
default='auto',
help_text=_("Port speed limit"),
)
mac_limit = models.IntegerField(
null=True,
blank=True,
help_text=_("Limit of MAC-address on this port"),
verbose_name=_("MAC limit")
)
flow_control = models.BooleanField(
default=False,
help_text=_("Flow control"),
)
dhcp_snooping = models.BooleanField(
default=False,
help_text=_("Protect against rogue DHCP"),
verbose_name=_("DHCP snooping")
)
dhcpv6_snooping = models.BooleanField(
default=False,
help_text=_("Protect against rogue DHCPv6"),
verbose_name=_("DHCPv6 snooping")
)
arp_protect = models.BooleanField(
default=False,
help_text=_("Check if IP adress is DHCP assigned"),
verbose_name=_("ARP protection")
)
ra_guard = models.BooleanField(
default=False,
help_text=_("Protect against rogue RA"),
verbose_name=_("RA guard")
)
loop_protect = models.BooleanField(
default=False,
help_text=_("Protect against loop"),
verbose_name=_("Loop protection")
)
class Meta:
permissions = (
("view_port_profile", _("Can view a port profile object")),
)
verbose_name = _("port profile")
verbose_name_plural = _("port profiles")
unique_together = ['on_dormitory', 'profil_default']
security_parameters_fields = [
'loop_protect',
'ra_guard',
'arp_protect',
'dhcpv6_snooping',
'dhcp_snooping',
'flow_control'
]
@cached_property
def security_parameters_enabled(self):
return [
parameter
for parameter in self.security_parameters_fields
if getattr(self, parameter)
]
@cached_property
def security_parameters_as_str(self):
return ','.join(self.security_parameters_enabled)
def clean(self):
""" Check that there is only one generic profil default"""
super(PortProfile, self).clean()
if self.profil_default and not self.on_dormitory and PortProfile.objects.exclude(id=self.id).filter(profil_default=self.profil_default).exclude(on_dormitory__isnull=False).exists():
raise ValidationError(
{'profil_default': _("A default profile for all dormitory of that type already exists.")}
)
def __str__(self):
return self.name
@receiver(post_save, sender=AccessPoint)
def ap_post_save(**_kwargs):
"""Regeneration des noms des bornes vers le controleur"""
regen('unifi-ap-names')
regen("graph_topo")
@receiver(post_delete, sender=AccessPoint)
def ap_post_delete(**_kwargs):
"""Regeneration des noms des bornes vers le controleur"""
regen('unifi-ap-names')
regen("graph_topo")
@receiver(post_delete, sender=Stack)
def stack_post_delete(**_kwargs):
"""Vide les id des switches membres d'une stack supprimée"""
Switch.objects.filter(stack=None).update(stack_member_id=None)
@receiver(post_save, sender=Port)
def port_post_save(**_kwargs):
regen("graph_topo")
@receiver(post_delete, sender=Port)
def port_post_delete(**_kwargs):
regen("graph_topo")
@receiver(post_save, sender=ModelSwitch)
def modelswitch_post_save(**_kwargs):
regen("graph_topo")
@receiver(post_delete, sender=ModelSwitch)
def modelswitch_post_delete(**_kwargs):
regen("graph_topo")
@receiver(post_save, sender=Building)
def building_post_save(**_kwargs):
regen("graph_topo")
@receiver(post_delete, sender=Building)
def building_post_delete(**_kwargs):
regen("graph_topo")
@receiver(post_save, sender=Switch)
def switch_post_save(**_kwargs):
regen("graph_topo")
@receiver(post_delete, sender=Switch)
def switch_post_delete(**_kwargs):
regen("graph_topo")