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re2o/topologie/models.py

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# -*- mode: python; coding: utf-8 -*-
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# 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 Lara Kermarec
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# 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
"""
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from __future__ import unicode_literals
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import itertools
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from django.db import models
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from django.db.models.signals import post_save, post_delete
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from django.utils.functional import cached_property
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from django.core.cache import cache
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from django.dispatch import receiver
from django.core.exceptions import ValidationError
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from django.db import IntegrityError
from django.db import transaction
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from django.utils.translation import ugettext_lazy as _
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from reversion import revisions as reversion
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from preferences.models import OptionalTopologie, RadiusKey, SwitchManagementCred
from machines.models import Machine, regen, Role, MachineType, Ipv6List
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from re2o.mixins import AclMixin, RevMixin
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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
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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")),)
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verbose_name = _("switches stack")
verbose_name_plural = _("switches stacks")
def __str__(self):
return " ".join([self.name, self.stack_id])
def save(self, *args, **kwargs):
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self.clean()
if not self.name:
self.name = self.stack_id
super(Stack, self).save(*args, **kwargs)
def clean(self):
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""" Verification que l'id_max < id_min"""
if self.member_id_max < self.member_id_min:
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raise ValidationError(
{"member_id_max": _("The maximum ID is less than the minimum ID.")}
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)
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class AccessPoint(AclMixin, Machine):
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"""Define a wireless AP. Inherit from machines.interfaces
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Definition pour une borne wifi , hérite de machines.interfaces
"""
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location = models.CharField(
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max_length=255,
help_text=_("Details about the AP's location."),
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blank=True,
null=True,
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)
class Meta:
permissions = (("view_accesspoint", _("Can view an access point object")),)
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verbose_name = _("access point")
verbose_name_plural = _("access points")
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def port(self):
"""Return the queryset of ports for this device"""
return Port.objects.filter(machine_interface__machine=self)
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def switch(self):
"""Return the switch where this is plugged"""
return Switch.objects.filter(ports__machine_interface__machine=self)
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def building(self):
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"""
Return the building of the AP/Server (building of the switchs
connected to...)
"""
return Building.objects.filter(switchbay__switch=self.switch())
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@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"""
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return cls.objects.filter(
interface__port__switch__switchbay__building=building_instance
)
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def __str__(self):
return str(self.interface_set.first())
class Server(Machine):
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"""
Dummy class, to retrieve servers of a building, or get switch of a server
"""
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class Meta:
proxy = True
def port(self):
"""Return the queryset of ports for this device"""
return Port.objects.filter(machine_interface__machine=self)
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def switch(self):
"""Return the switch where this is plugged"""
return Switch.objects.filter(ports__machine_interface__machine=self)
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def building(self):
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"""
Return the building of the AP/Server
(building of the switchs connected to...)
"""
return Building.objects.filter(switchbay__switch=self.switch())
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@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"""
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return cls.objects.filter(
interface__port__switch__switchbay__building=building_instance
).exclude(accesspoint__isnull=False)
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def __str__(self):
return str(self.interface_set.first())
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class Switch(AclMixin, Machine):
""" Definition d'un switch. Contient un nombre de ports (number),
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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 ?
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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
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)
stack_member_id = models.PositiveIntegerField(blank=True, null=True)
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model = models.ForeignKey(
"topologie.ModelSwitch",
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blank=True,
null=True,
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on_delete=models.SET_NULL,
help_text=_("Switch model."),
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)
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.")
)
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class Meta:
unique_together = ("stack", "stack_member_id")
permissions = (("view_switch", _("Can view a switch object")),)
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verbose_name = _("switch")
verbose_name_plural = _("switches")
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def clean(self):
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""" 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
):
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raise ValidationError(
{
"stack_member_id": _(
"The switch ID exceeds the"
" limits allowed by the stack."
)
}
)
else:
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raise ValidationError(
{"stack_member_id": _("The stack member ID can't be void.")}
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)
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def create_ports(self, begin, end):
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""" Crée les ports de begin à end si les valeurs données
sont cohérentes. """
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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
)
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non_existing_ports = list(set(ports_to_create) - set(existing_ports))
if len(non_existing_ports) + existing_ports.count() > self.number:
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raise ValidationError(_("This switch can't have that many ports."))
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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
]
)
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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()
or self.interface_set.first()
)
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return self.interface_set.first()
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@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_radius_servers_objects(self):
return Role.all_interfaces_for_roletype("radius-server").filter(
machine_type__in=MachineType.objects.filter(
interface__in=self.interface_set.all()
)
)
@cached_property
def get_radius_servers(self):
def return_ips_dict(interfaces):
return {
"ipv4": [str(interface.ipv4) for interface in interfaces],
"ipv6": Ipv6List.objects.filter(interface__in=interfaces).values_list(
"ipv6", flat=True
),
}
return return_ips_dict(self.get_radius_servers_objects)
@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())
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@cached_property
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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_net_full_info
or interface.machine_type.ip_type.ip_set_full_info[0],
)
for interface in self.interface_set.all()
)
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@cached_property
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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()
)
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@cached_property
def list_modules(self):
"""Return modules of that switch, list of dict (rank, reference)"""
modules = []
if getattr(self.model, "is_modular", None):
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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
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@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
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If exists, returns the defined default profile for a profile type on the dormitory which
the switch belongs
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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()
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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")
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def __str__(self):
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return str(self.get_name)
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class ModelSwitch(AclMixin, RevMixin, models.Model):
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"""Un modèle (au sens constructeur) de switch"""
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reference = models.CharField(max_length=255)
commercial_name = models.CharField(max_length=255, null=True, blank=True)
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constructor = models.ForeignKey(
"topologie.ConstructorSwitch", on_delete=models.PROTECT
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)
firmware = models.CharField(max_length=255, null=True, blank=True)
is_modular = models.BooleanField(
default=False, help_text=_("The switch model is modular.")
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)
is_itself_module = models.BooleanField(
default=False, help_text=_("The switch is considered as a module.")
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)
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class Meta:
permissions = (("view_modelswitch", _("Can view a switch model object")),)
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verbose_name = _("switch model")
verbose_name_plural = _("switch models")
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def __str__(self):
if self.commercial_name:
return str(self.constructor) + " " + str(self.commercial_name)
else:
return str(self.constructor) + " " + self.reference
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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")),)
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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"),
),
)
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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 %(slot)s of %(switch)s").format(slot=str(self.slot), switch=str(self.switch))
class ConstructorSwitch(AclMixin, RevMixin, models.Model):
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"""Un constructeur de switch"""
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name = models.CharField(max_length=255)
class Meta:
permissions = (
("view_constructorswitch", _("Can view a switch constructor object")),
)
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verbose_name = _("switch constructor")
verbose_name_plural = _("switch constructors")
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def __str__(self):
return self.name
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class SwitchBay(AclMixin, RevMixin, models.Model):
"""Une baie de brassage"""
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name = models.CharField(max_length=255)
building = models.ForeignKey("Building", on_delete=models.PROTECT)
info = models.CharField(max_length=255, blank=True, null=True)
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class Meta:
permissions = (("view_switchbay", _("Can view a switch bay object")),)
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verbose_name = _("switch bay")
verbose_name_plural = _("switch bays")
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def __str__(self):
return self.name
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class Dormitory(AclMixin, RevMixin, models.Model):
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"""A student accomodation/dormitory
Une résidence universitaire"""
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name = models.CharField(max_length=255)
class Meta:
permissions = (("view_dormitory", _("Can view a dormitory object")),)
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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())
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@classmethod
def is_multiple_dorms(cls):
multiple_dorms = cache.get("multiple_dorms")
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if multiple_dorms:
return multiple_dorms
else:
return cache.get_or_set("multiple_dorms", cls.objects.count() > 1)
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def __str__(self):
return self.name
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class Building(AclMixin, RevMixin, models.Model):
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"""A building of a dormitory
Un batiment"""
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name = models.CharField(max_length=255)
dormitory = models.ForeignKey("Dormitory", on_delete=models.PROTECT)
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class Meta:
permissions = (("view_building", _("Can view a building object")),)
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verbose_name = _("building")
verbose_name_plural = _("buildings")
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def all_ap_in(self):
"""Returns all ap of the building"""
return AccessPoint.all_ap_in(self)
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def get_name(self):
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if Dormitory.is_multiple_dorms():
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return self.dormitory.name + " : " + self.name
else:
return self.name
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@cached_property
def cached_name(self):
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return self.get_name()
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def __str__(self):
return self.cached_name
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class Port(AclMixin, RevMixin, models.Model):
""" Definition d'un port. Relié à un switch(foreign_key),
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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 :
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- 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
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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
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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
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)
related = models.OneToOneField(
"self", null=True, blank=True, related_name="related_port"
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)
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custom_profile = models.ForeignKey(
"PortProfile", on_delete=models.PROTECT, blank=True, null=True
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)
state = models.BooleanField(
default=True,
help_text=_("Port state Active."),
verbose_name=_("port state Active"),
)
details = models.CharField(max_length=255, blank=True)
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class Meta:
unique_together = ("switch", "port")
permissions = (("view_port", _("Can view a port object")),)
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verbose_name = _("port")
verbose_name_plural = _("ports")
@cached_property
def pretty_name(self):
"""More elaborated name for label on switch conf"""
if self.related:
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return _("Uplink: ") + self.related.switch.short_name
elif self.machine_interface:
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return _("Machine: ") + str(self.machine_interface.domain)
elif self.room:
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return _("Room: ") + str(self.room)
else:
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return _("Unknown")
@cached_property
def get_port_profile(self):
"""Return the config profil for this port
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:returns: the profile of self (port)
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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"""
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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:
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return Switch.nothing_profile()
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@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)
)
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def make_port_related(self):
""" Synchronise le port distant sur self"""
related_port = self.related
related_port.related = self
related_port.save()
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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
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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"):
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if self.port > self.switch.number:
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raise ValidationError(
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_("The port can't exist, its number is too great.")
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)
if (
self.room
and self.machine_interface
or self.room
and self.related
or self.machine_interface
and self.related
):
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raise ValidationError(
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_("Room, interface and related port are mutually exclusive.")
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)
if self.related == self:
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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:
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raise ValidationError(
_(
"The related port is already used, please clear it"
" before creating the relation."
)
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)
else:
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self.make_port_related()
elif hasattr(self, "related_port"):
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self.clean_port_related()
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def __str__(self):
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return str(self.switch) + " - " + str(self.port)
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class Room(AclMixin, RevMixin, models.Model):
"""Une chambre/local contenant une prise murale"""
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name = models.CharField(max_length=255)
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details = models.CharField(max_length=255, blank=True)
building = models.ForeignKey("Building", on_delete=models.PROTECT)
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class Meta:
ordering = ["building__name"]
permissions = (("view_room", _("Can view a room object")),)
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verbose_name = _("room")
verbose_name_plural = _("rooms")
unique_together = ("name", "building")
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def __str__(self):
return self.building.cached_name + " " + self.name
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class PortProfile(AclMixin, RevMixin, models.Model):
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"""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"))
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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"),
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)
PROFIL_DEFAULT = (
("room", _("Room")),
("access_point", _("Access point")),
("uplink", _("Uplink")),
("asso_machine", _("Organisation machine")),
("nothing", _("Nothing")),
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)
name = models.CharField(max_length=255, verbose_name=_("name"))
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profil_default = models.CharField(
max_length=32,
choices=PROFIL_DEFAULT,
blank=True,
null=True,
verbose_name=_("default profile"),
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)
on_dormitory = models.ForeignKey(
"topologie.Dormitory",
related_name="dormitory_ofprofil",
on_delete=models.SET_NULL,
blank=True,
null=True,
verbose_name=_("profile on dormitory"),
)
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vlan_untagged = models.ForeignKey(
"machines.Vlan",
related_name="vlan_untagged",
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on_delete=models.SET_NULL,
blank=True,
null=True,
verbose_name=_("VLAN untagged"),
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)
vlan_tagged = models.ManyToManyField(
"machines.Vlan",
related_name="vlan_tagged",
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blank=True,
verbose_name=_("VLAN(s) tagged"),
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)
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radius_type = models.CharField(
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max_length=32,
choices=TYPES,
help_text=_(
"Type of RADIUS authentication: inactive, MAC-address or 802.1X."
),
verbose_name=_("RADIUS type"),
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)
radius_mode = models.CharField(
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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"),
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)
speed = models.CharField(
max_length=32, choices=SPEED, default="auto", help_text=_("Port speed limit.")
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)
mac_limit = models.IntegerField(
null=True,
blank=True,
help_text=_("Limit of MAC-address on this port."),
verbose_name=_("MAC limit"),
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)
flow_control = models.BooleanField(default=False, help_text=_("Flow control."))
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dhcp_snooping = models.BooleanField(
default=False,
help_text=_("Protect against rogue DHCP."),
verbose_name=_("DHCP snooping"),
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)
dhcpv6_snooping = models.BooleanField(
default=False,
help_text=_("Protect against rogue DHCPv6."),
verbose_name=_("DHCPv6 snooping"),
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)
arp_protect = models.BooleanField(
default=False,
help_text=_("Check if IP address is DHCP assigned."),
verbose_name=_("ARP protection"),
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)
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ra_guard = models.BooleanField(
default=False,
help_text=_("Protect against rogue RA."),
verbose_name=_("RA guard"),
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)
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loop_protect = models.BooleanField(
default=False,
help_text=_("Protect against loop."),
verbose_name=_("loop protection"),
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)
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class Meta:
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permissions = (("view_portprofile", _("Can view a port profile object")),)
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verbose_name = _("port profile")
verbose_name_plural = _("port profiles")
unique_together = ["on_dormitory", "profil_default"]
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security_parameters_fields = [
"loop_protect",
"ra_guard",
"arp_protect",
"dhcpv6_snooping",
"dhcp_snooping",
"flow_control",
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]
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@cached_property
def security_parameters_enabled(self):
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return [
parameter
for parameter in self.security_parameters_fields
if getattr(self, parameter)
]
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@cached_property
def security_parameters_as_str(self):
return ",".join(self.security_parameters_enabled)
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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 dormitories of that type already exists."
)
}
)
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def __str__(self):
return self.name
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@receiver(post_save, sender=AccessPoint)
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def ap_post_save(**_kwargs):
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"""Regeneration des noms des bornes vers le controleur"""
regen("unifi-ap-names")
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regen("graph_topo")
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@receiver(post_delete, sender=AccessPoint)
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def ap_post_delete(**_kwargs):
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"""Regeneration des noms des bornes vers le controleur"""
regen("unifi-ap-names")
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regen("graph_topo")
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@receiver(post_delete, sender=Stack)
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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)
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@receiver(post_save, sender=Port)
def port_post_save(**_kwargs):
regen("graph_topo")
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@receiver(post_delete, sender=Port)
def port_post_delete(**_kwargs):
regen("graph_topo")
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@receiver(post_save, sender=ModelSwitch)
def modelswitch_post_save(**_kwargs):
regen("graph_topo")
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@receiver(post_delete, sender=ModelSwitch)
def modelswitch_post_delete(**_kwargs):
regen("graph_topo")
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@receiver(post_save, sender=Building)
def building_post_save(**_kwargs):
regen("graph_topo")
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@receiver(post_delete, sender=Building)
def building_post_delete(**_kwargs):
regen("graph_topo")
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@receiver(post_save, sender=Switch)
def switch_post_save(**_kwargs):
regen("graph_topo")
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@receiver(post_delete, sender=Switch)
def switch_post_delete(**_kwargs):
regen("graph_topo")