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merge
This commit is contained in:
parent
8ba9fa2fa0
commit
01e7822d95
4 changed files with 211 additions and 263 deletions
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@ -1,5 +1,5 @@
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# -*- mode: python; coding: utf-8 -*-
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# Re2o est un logiciel d'administration développé initiallement au Rézo Metz. Il
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# Re2o est un logiciel d'administration développé initiallement au rezometz. Il
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# se veut agnostique au réseau considéré, de manière à être installable en
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# quelques clics.
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#
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@ -7,6 +7,7 @@
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# Copyright © 2017 Gabriel Détraz
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# Copyright © 2017 Lara Kermarec
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# Copyright © 2017 Augustin Lemesle
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# Copyright © 2020 Corentin Canebier
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#
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# This program is free software; you can redistribute it and/or modify
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# it under the terms of the GNU General Public License as published by
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@ -59,20 +60,18 @@ from preferences.models import RadiusOption
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from topologie.models import Port, Switch
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from users.models import User
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# Logging
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class RadiusdHandler(logging.Handler):
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"""Logs handler for freeradius"""
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"""Handler de logs pour freeradius"""
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def emit(self, record):
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"""Log message processing, level are converted"""
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"""Process un message de log, en convertissant les niveaux"""
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if record.levelno >= logging.WARN:
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rad_sig = radiusd.L_ERR
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elif record.levelno >= logging.INFO:
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rad_sig = radiusd.L_INFO
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else:
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rad_sig = radiusd.L_DBG
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radiusd.radlog(rad_sig, str(record.msg))
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radiusd.radlog(rad_sig, record.msg.encode("utf-8"))
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# Init for logging
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@ -85,15 +84,17 @@ logger.addHandler(handler)
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def radius_event(fun):
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"""Decorator for freeradius fonction with radius.
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This function take a unique argument which is a list of tuples (key, value)
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and return a tuple of 3 values which are:
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* return code (see radiusd.RLM_MODULE_* )
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* a tuple of 2 elements for response value (access ok , etc)
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* a tuple of 2 elements for internal value to update (password for example)
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"""Décorateur pour les fonctions d'interfaces avec radius.
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Une telle fonction prend un uniquement argument, qui est une liste de
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tuples (clé, valeur) et renvoie un triplet dont les composantes sont :
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* le code de retour (voir radiusd.RLM_MODULE_* )
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* un tuple de couples (clé, valeur) pour les valeurs de réponse (accès ok
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et autres trucs du genre)
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* un tuple de couples (clé, valeur) pour les valeurs internes à mettre à
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jour (mot de passe par exemple)
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Here, we convert the list of tuples into a dictionnary.
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"""
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On se contente avec ce décorateur (pour l'instant) de convertir la liste de
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tuples en entrée en un dictionnaire."""
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def new_f(auth_data):
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""" The function transforming the tuples as dict """
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@ -106,12 +107,15 @@ def radius_event(fun):
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# Ex: Calling-Station-Id: "une_adresse_mac"
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data[key] = value.replace('"', "")
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try:
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# TODO s'assurer ici que les tuples renvoy s sont bien des
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# (str,str) : rlm_python ne dig re PAS les unicodes
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return fun(data)
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except Exception as err:
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exc_type, exc_instance, exc_traceback = sys.exc_info()
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formatted_traceback = "".join(traceback.format_tb(exc_traceback))
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logger.error("Failed %r on data %r" % (err, auth_data))
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logger.error("Function %r, Traceback : %r" % (fun, formatted_traceback))
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logger.error("Function %r, Traceback : %r" %
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(fun, formatted_traceback))
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return radiusd.RLM_MODULE_FAIL
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return new_f
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@ -122,6 +126,18 @@ def instantiate(*_):
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"""Usefull for instantiate ldap connexions otherwise,
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do nothing"""
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logger.info("Instantiation")
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path = (os.path.dirname(os.path.abspath(__file__)))
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config = ConfigParser()
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config.read(path+'/config.ini')
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api_hostname = config.get('Re2o', 'hostname')
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api_password = config.get('Re2o', 'password')
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api_username = config.get('Re2o', 'username')
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global api_client
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api_client = Re2oAPIClient(
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api_hostname, api_username, api_password, use_tls=True)
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@radius_event
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@ -171,32 +187,18 @@ def post_auth(data):
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return radiusd.RLM_MODULE_OK
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nas_type = Nas.objects.filter(nas_type=nas_instance.machine_type).first()
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if not nas_type:
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logger.info("This kind of nas is not registered in the database!")
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logger.info("Proxified request, nas unknown")
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return radiusd.RLM_MODULE_OK
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mac = data.get("Calling-Station-Id", None)
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# If it is a switch
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if switch:
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sw_name = switch["name"] or "?"
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room = "Unknown port"
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if port:
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room = port.room or "Unknown room"
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# Switchs and access point can have several interfaces
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nas_machine = nas_instance.machine
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# If it is a switchs
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if hasattr(nas_machine, "switch"):
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port = data.get("NAS-Port-Id", data.get("NAS-Port", None))
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# If the switch is part of a stack, calling ip is different from calling switch.
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instance_stack = nas_machine.switch.stack
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if instance_stack:
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# If it is a stack, we select the correct switch in the stack
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id_stack_member = port.split("-")[1].split("/")[0]
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nas_machine = (
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Switch.objects.filter(stack=instance_stack)
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.filter(stack_member_id=id_stack_member)
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.prefetch_related("interface_set__domain__extension")
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.first()
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)
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# Find the port number from freeradius, works both with HP, Cisco
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# and juniper output
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port = port.split(".")[0].split("/")[-1][-2:]
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out = decide_vlan_switch(nas_machine, nas_type, port, mac)
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sw_name, room, reason, vlan_id, decision, attributes = out
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out = decide_vlan_switch(data_from_api, mac, nas_port)
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reason, vlan_id, decision, attributes = out
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if decision:
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log_message = "(wired) %s -> %s [%s%s]" % (
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@ -232,70 +234,50 @@ def post_auth(data):
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return radiusd.RLM_MODULE_OK
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# TODO : remove this function
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@radius_event
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def dummy_fun(_):
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"""Do nothing, successfully. """
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return radiusd.RLM_MODULE_OK
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def detach(_=None):
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"""Detatch the auth"""
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print("*** goodbye from auth.py ***")
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return radiusd.RLM_MODULE_OK
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def find_nas_from_request(nas_id):
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""" Get the nas object from its ID """
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nas = (
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Interface.objects.filter(
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Q(domain=Domain.objects.filter(name=nas_id))
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| Q(ipv4=IpList.objects.filter(ipv4=nas_id))
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)
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.select_related("machine_type")
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.select_related("machine__switch__stack")
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)
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return nas.first()
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def check_user_machine_and_register(nas_type, username, mac_address):
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def check_user_machine_and_register(nas_type, user, user_interface):
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"""Check if username and mac are registered. Register it if unknown.
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Return the user ntlm password if everything is ok.
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Used for 802.1X auth"""
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interface = Interface.objects.filter(mac_address=mac_address).first()
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user = User.objects.filter(pseudo__iexact=username).first()
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if not user:
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return (False, "User unknown", "")
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if not user.has_access():
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if not user["access"]:
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return (False, "Invalid connexion (non-contributing user)", "")
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if interface:
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if interface.machine.user != user:
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if user_interface:
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if user_interface["user_pk"] != user["pk"]:
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return (
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False,
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"Mac address registered on another user account",
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"",
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)
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elif not interface.is_active:
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elif not user_interface["active"]:
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return (False, "Interface/Machine disabled", "")
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elif not interface.ipv4:
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interface.assign_ipv4()
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return (True, "Ok, new ipv4 assignement...", user.pwd_ntlm)
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elif not user_interface["ipv4"]:
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# interface.assign_ipv4()
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return (True, "Ok, new ipv4 assignement...", user.get("pwd_ntlm", ""))
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else:
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return (True, "Access ok", user.pwd_ntlm)
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return (True, "Access ok", user.get("pwd_ntlm", ""))
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elif nas_type:
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if nas_type.autocapture_mac:
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result, reason = user.autoregister_machine(mac_address, nas_type)
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if result:
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return (True, "Access Ok, Registering mac...", user.pwd_ntlm)
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else:
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return (False, "Error during mac register %s" % reason, "")
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if nas_type["autocapture_mac"]:
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# result, reason = user.autoregister_machine(mac_address, nas_type)
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# if result:
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# return (True, "Access Ok, Registering mac...", user.pwd_ntlm)
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# else:
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# return (False, "Error during mac register %s" % reason, "")
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return (False, "L'auto capture est désactivée", "")
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else:
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return (False, "Unknown interface/machine", "")
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else:
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return (False, "Unknown interface/machine", "")
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def decide_vlan_switch(nas_machine, nas_type, port_number, mac_address):
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def set_radius_attributes_values(attributes, values):
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return (
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(str(attribute.attribute), str(attribute.value % values))
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for attribute in attributes
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)
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def decide_vlan_switch(data_from_api, user_mac, nas_port):
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"""Function for selecting vlan for a switch with wired mac auth radius.
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Several modes are available :
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- all modes:
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@ -328,10 +310,24 @@ def decide_vlan_switch(nas_machine, nas_type, port_number, mac_address):
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- decision (bool)
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- Other Attributs (attribut:str, operator:str, value:str)
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"""
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nas_type = data_from_api["nas"]
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room_users = data_from_api["room_users"]
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port = data_from_api["port"]
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port_profile = data_from_api["port_profile"]
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switch = data_from_api["switch"]
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user_interface = data_from_api["user_interface"]
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radius_option = data_from_api["radius_option"]
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EMAIL_STATE_UNVERIFIED = data_from_api["EMAIL_STATE_UNVERIFIED"]
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RADIUS_OPTION_REJECT = data_from_api["RADIUS_OPTION_REJECT"]
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USER_STATE_ACTIVE = data_from_api["USER_STATE_ACTIVE"]
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attributes_kwargs = {
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"client_mac": str(mac_address),
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"switch_port": str(port_number),
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"client_mac": str(user_mac),
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"switch_port": str(nas_port.split(".")[0].split("/")[-1][-2:]),
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"switch_ip": str(switch.ipv4)
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}
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# Get port from switch and port number
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extra_log = ""
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# If NAS is unknown, go to default vlan
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@ -353,39 +349,35 @@ def decide_vlan_switch(nas_machine, nas_type, port_number, mac_address):
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# If the port is unknwon, go to default vlan
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# We don't have enought information to make a better decision
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if not port:
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if not port or not port_profile:
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return (
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sw_name,
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"Unknown port",
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"PUnknown port",
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getattr(
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RadiusOption.get_cached_value("unknown_port_vlan"), "vlan_id", None
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),
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RadiusOption.get_cached_value("unknown_port") != RadiusOption.REJECT,
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RadiusOption.get_attributes("unknown_port_attributes", attributes_kwargs),
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radius_option["unknown_port_vlan"] and radius_option["unknown_port_vlan"]["vlan_id"] or None,
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radius_option["unknown_port"] != RADIUS_OPTION_REJECT,
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set_radius_attributes_values(
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radius_option["unknown_port_attributes"], attributes_kwargs),
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)
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# Retrieve port profile
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port_profile = port.get_port_profile
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# If a vlan is precised in port config, we use it
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if port_profile.vlan_untagged:
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DECISION_VLAN = int(port_profile.vlan_untagged.vlan_id)
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if port_profile["vlan_untagged"]:
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DECISION_VLAN = int(port_profile["vlan_untagged"]["vlan_id"])
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extra_log = "Force sur vlan " + str(DECISION_VLAN)
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attributes = ()
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else:
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DECISION_VLAN = RadiusOption.get_cached_value("vlan_decision_ok").vlan_id
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attributes = RadiusOption.get_attributes("ok_attributes", attributes_kwargs)
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DECISION_VLAN = radius_option["vlan_decision_ok"]["vlan_id"]
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attributes = set_radius_attributes_values(
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radius_option["ok_attributes"], attributes_kwargs)
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# If the port is disabled in re2o, REJECT
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if not port.state:
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return (sw_name, port.room, "Port disabled", None, False, ())
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if not port["state"]:
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return ("Port disabled", None, False, ())
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# If radius is disabled, decision is OK
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if port_profile.radius_type == "NO":
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if port_profile["radius_type"] == "NO":
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return (
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sw_name,
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"",
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"No Radius auth enabled on this port" + extra_log,
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DECISION_VLAN,
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True,
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@ -394,11 +386,8 @@ def decide_vlan_switch(nas_machine, nas_type, port_number, mac_address):
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# If 802.1X is enabled, people has been previously accepted.
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# Go to the decision vlan
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if (nas_type.port_access_mode, port_profile.radius_type) == ("802.1X", "802.1X"):
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room = port.room or "Room unknown"
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if (nas_type["port_access_mode"], port_profile["radius_type"]) == ("802.1X", "802.1X"):
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return (
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sw_name,
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room,
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"Accept authentication 802.1X",
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DECISION_VLAN,
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True,
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|
@ -409,166 +398,101 @@ def decide_vlan_switch(nas_machine, nas_type, port_number, mac_address):
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# If strict mode is enabled, we check every user related with this port. If
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# one user or more is not enabled, we reject to prevent from sharing or
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# spoofing mac.
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if port_profile.radius_mode == "STRICT":
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room = port.room
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if not room:
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if port_profile["radius_mode"] == "STRICT":
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if not port["room"]:
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return (
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sw_name,
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"Unknown",
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"Unkwown room",
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getattr(
|
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RadiusOption.get_cached_value("unknown_room_vlan"), "vlan_id", None
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),
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RadiusOption.get_cached_value("unknown_room") != RadiusOption.REJECT,
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RadiusOption.get_attributes(
|
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"unknown_room_attributes", attributes_kwargs
|
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),
|
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radius_option["unknown_room_vlan"] and radius_option["unknown_room_vlan"]["vlan_id"] or None,
|
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radius_option["unknown_room"] != RADIUS_OPTION_REJECT,
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set_radius_attributes_values(
|
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radius_option["unknown_room_attributes"], attributes_kwargs),
|
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)
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|
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room_user = User.objects.filter(
|
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Q(club__room=port.room) | Q(adherent__room=port.room)
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)
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if not room_user:
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if not room_users:
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return (
|
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sw_name,
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room,
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"Non-contributing room",
|
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getattr(
|
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RadiusOption.get_cached_value("non_member_vlan"), "vlan_id", None
|
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),
|
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RadiusOption.get_cached_value("non_member") != RadiusOption.REJECT,
|
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RadiusOption.get_attributes("non_member_attributes", attributes_kwargs),
|
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radius_option["non_member_vlan"] and radius_option["non_member_vlan"]["vlan_id"] or None,
|
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radius_option["non_member"] != RADIUS_OPTION_REJECT,
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set_radius_attributes_values(
|
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radius_option["non_member_attributes"], attributes_kwargs),
|
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)
|
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for user in room_user:
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if user.is_ban() or user.state != User.STATE_ACTIVE:
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|
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all_user_ban = True
|
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at_least_one_active_user = False
|
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|
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for user in room_users:
|
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if not user["is_ban"] and user["state"] == USER_STATE_ACTIVE:
|
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all_user_ban = False
|
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elif user["email_state"] != EMAIL_STATE_UNVERIFIED and (user["is_connected"] or user["is_whitelisted"]):
|
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at_least_one_active_user = True
|
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|
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if all_user_ban:
|
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return (
|
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sw_name,
|
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room,
|
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"User is banned or disabled",
|
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getattr(
|
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RadiusOption.get_cached_value("banned_vlan"), "vlan_id", None
|
||||
),
|
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RadiusOption.get_cached_value("banned") != RadiusOption.REJECT,
|
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RadiusOption.get_attributes("banned_attributes", attributes_kwargs),
|
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radius_option["banned_vlan"] and radius_option["banned_vlan"]["vlan_id"] or None,
|
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radius_option["banned"] != RADIUS_OPTION_REJECT,
|
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set_radius_attributes_values(
|
||||
radius_option["banned_attributes"], attributes_kwargs),
|
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)
|
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elif user.email_state == User.EMAIL_STATE_UNVERIFIED:
|
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if not at_least_one_active_user:
|
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return (
|
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sw_name,
|
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room,
|
||||
"User is suspended (mail has not been confirmed)",
|
||||
getattr(
|
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RadiusOption.get_cached_value("non_member_vlan"),
|
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"vlan_id",
|
||||
None,
|
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),
|
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RadiusOption.get_cached_value("non_member") != RadiusOption.REJECT,
|
||||
RadiusOption.get_attributes(
|
||||
"non_member_attributes", attributes_kwargs
|
||||
),
|
||||
)
|
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elif not (user.is_connected() or user.is_whitelisted()):
|
||||
return (
|
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sw_name,
|
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room,
|
||||
"Non-contributing member",
|
||||
getattr(
|
||||
RadiusOption.get_cached_value("non_member_vlan"),
|
||||
"vlan_id",
|
||||
None,
|
||||
),
|
||||
RadiusOption.get_cached_value("non_member") != RadiusOption.REJECT,
|
||||
RadiusOption.get_attributes(
|
||||
"non_member_attributes", attributes_kwargs
|
||||
),
|
||||
"Non-contributing member or unconfirmed mail",
|
||||
radius_option["non_member_vlan"] and radius_option["non_member_vlan"]["vlan_id"] or None,
|
||||
radius_option["non_member"] != RADIUS_OPTION_REJECT,
|
||||
set_radius_attributes_values(
|
||||
radius_option["non_member_attributes"], attributes_kwargs),
|
||||
)
|
||||
# else: user OK, so we check MAC now
|
||||
|
||||
# If we are authenticating with mac, we look for the interfaces and its mac address
|
||||
if port_profile.radius_mode == "COMMON" or port_profile.radius_mode == "STRICT":
|
||||
# Mac auth
|
||||
interface = (
|
||||
Interface.objects.filter(mac_address=mac_address)
|
||||
.select_related("machine__user")
|
||||
.select_related("ipv4")
|
||||
.first()
|
||||
)
|
||||
# If mac is unknown,
|
||||
if not interface:
|
||||
room = port.room
|
||||
if not user_interface:
|
||||
# We try to register mac, if autocapture is enabled
|
||||
# Final decision depend on RADIUSOption set in re2o
|
||||
if nas_type.autocapture_mac:
|
||||
if nas_type["autocapture_mac"]:
|
||||
return (
|
||||
sw_name,
|
||||
room,
|
||||
"Unknown mac/interface",
|
||||
getattr(
|
||||
RadiusOption.get_cached_value("unknown_machine_vlan"),
|
||||
"vlan_id",
|
||||
None,
|
||||
),
|
||||
RadiusOption.get_cached_value("unknown_machine")
|
||||
!= RadiusOption.REJECT,
|
||||
RadiusOption.get_attributes(
|
||||
"unknown_machine_attributes", attributes_kwargs
|
||||
),
|
||||
radius_option["unknown_machine_vlan"] and radius_option["unknown_machine_vlan"]["vlan_id"] or None,
|
||||
radius_option["unknown_machine"] != RADIUS_OPTION_REJECT,
|
||||
set_radius_attributes_values(
|
||||
radius_option["unknown_machine_attributes"], attributes_kwargs),
|
||||
)
|
||||
# Otherwise, if autocapture mac is not enabled,
|
||||
else:
|
||||
return (
|
||||
sw_name,
|
||||
"",
|
||||
"Unknown mac/interface",
|
||||
getattr(
|
||||
RadiusOption.get_cached_value("unknown_machine_vlan"),
|
||||
"vlan_id",
|
||||
None,
|
||||
),
|
||||
RadiusOption.get_cached_value("unknown_machine")
|
||||
!= RadiusOption.REJECT,
|
||||
RadiusOption.get_attributes(
|
||||
"unknown_machine_attributes", attributes_kwargs
|
||||
),
|
||||
radius_option["unknown_machine_vlan"] and radius_option["unknown_machine_vlan"]["vlan_id"] or None,
|
||||
radius_option["unknown_machine"] != RADIUS_OPTION_REJECT,
|
||||
set_radius_attributes_values(
|
||||
radius_option["unknown_machine_attributes"], attributes_kwargs),
|
||||
)
|
||||
|
||||
# Mac/Interface is found, check if related user is contributing and ok
|
||||
# If needed, set ipv4 to it
|
||||
else:
|
||||
room = port.room
|
||||
if interface.machine.user.is_ban():
|
||||
if user_interface["is_ban"]:
|
||||
return (
|
||||
sw_name,
|
||||
room,
|
||||
"Banned user",
|
||||
getattr(
|
||||
RadiusOption.get_cached_value("banned_vlan"), "vlan_id", None
|
||||
),
|
||||
RadiusOption.get_cached_value("banned") != RadiusOption.REJECT,
|
||||
RadiusOption.get_attributes("banned_attributes", attributes_kwargs),
|
||||
radius_option["banned_vlan"] and radius_option["banned_vlan"]["vlan_id"] or None,
|
||||
radius_option["banned"] != RADIUS_OPTION_REJECT,
|
||||
set_radius_attributes_values(
|
||||
radius_option["banned_attributes"], attributes_kwargs),
|
||||
)
|
||||
if not interface.is_active:
|
||||
if not user_interface["active"]:
|
||||
return (
|
||||
sw_name,
|
||||
room,
|
||||
"Disabled interface / non-contributing member",
|
||||
getattr(
|
||||
RadiusOption.get_cached_value("non_member_vlan"),
|
||||
"vlan_id",
|
||||
None,
|
||||
),
|
||||
RadiusOption.get_cached_value("non_member") != RadiusOption.REJECT,
|
||||
RadiusOption.get_attributes(
|
||||
"non_member_attributes", attributes_kwargs
|
||||
),
|
||||
radius_option["non_member_vlan"] and radius_option["non_member_vlan"]["vlan_id"] or None,
|
||||
radius_option["non_member"] != RADIUS_OPTION_REJECT,
|
||||
set_radius_attributes_values(
|
||||
radius_option["non_member_attributes"], attributes_kwargs),
|
||||
)
|
||||
# If settings is set to related interface vlan policy based on interface type:
|
||||
if RadiusOption.get_cached_value("radius_general_policy") == "MACHINE":
|
||||
DECISION_VLAN = interface.machine_type.ip_type.vlan.vlan_id
|
||||
if not interface.ipv4:
|
||||
interface.assign_ipv4()
|
||||
if radius_option["radius_general_policy"] == "MACHINE":
|
||||
DECISION_VLAN = user_interface["vlan_id"]
|
||||
if not user_interface["ipv4"]:
|
||||
# interface.assign_ipv4()
|
||||
return (
|
||||
sw_name,
|
||||
room,
|
||||
"Ok, assigning new ipv4" + extra_log,
|
||||
DECISION_VLAN,
|
||||
True,
|
||||
|
@ -576,8 +500,6 @@ def decide_vlan_switch(nas_machine, nas_type, port_number, mac_address):
|
|||
)
|
||||
else:
|
||||
return (
|
||||
sw_name,
|
||||
room,
|
||||
"Interface OK" + extra_log,
|
||||
DECISION_VLAN,
|
||||
True,
|
||||
|
|
|
@ -1,3 +1,24 @@
|
|||
# -*- mode: python; coding: utf-8 -*-
|
||||
# Re2o est un logiciel d'administration développé initiallement au Rézo Metz. Il
|
||||
# se veut agnostique au réseau considéré, de manière à être installable en
|
||||
# quelques clics.
|
||||
#
|
||||
# Copyright © 2020 Corentin Canebier
|
||||
#
|
||||
# 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.
|
||||
|
||||
from rest_framework import serializers
|
||||
|
||||
import machines.models as machines
|
||||
|
@ -6,13 +27,15 @@ from api.serializers import NamespacedHMSerializer
|
|||
from rest_framework.serializers import Serializer
|
||||
|
||||
|
||||
class Ipv4Serializer(Serializer):
|
||||
ipv4 = serializers.CharField()
|
||||
|
||||
|
||||
class InterfaceSerializer(Serializer):
|
||||
mac_address = serializers.CharField()
|
||||
ipv4 = serializers.CharField(source="ipv4.ipv4")
|
||||
ipv4 = Ipv4Serializer()
|
||||
active = serializers.BooleanField(source="is_active")
|
||||
user_pk = serializers.CharField(source="machine.user.pk")
|
||||
# machine_type_pk = serializers.CharField(source="machine_type.pk")
|
||||
# switch_stack = serializers.CharField(source="machine.switch.stack")
|
||||
machine_short_name = serializers.CharField(source="machine.short_name")
|
||||
is_ban = serializers.BooleanField(source="machine.user.is_ban")
|
||||
vlan_id = serializers.IntegerField(
|
||||
|
@ -96,3 +119,4 @@ class PostAuthResponseSerializer(Serializer):
|
|||
radius_option = RadiusOptionSerializer()
|
||||
EMAIL_STATE_UNVERIFIED = serializers.IntegerField()
|
||||
RADIUS_OPTION_REJECT = serializers.CharField()
|
||||
USER_STATE_ACTIVE = serializers.CharField()
|
||||
|
|
|
@ -1,5 +1,5 @@
|
|||
# -*- mode: python; coding: utf-8 -*-
|
||||
# Re2o est un logiciel d'administration développé initiallement au rezometz. Il
|
||||
# Re2o est un logiciel d'administration développé initiallement au Rézo Metz. Il
|
||||
# se veut agnostique au réseau considéré, de manière à être installable en
|
||||
# quelques clics.
|
||||
#
|
||||
|
@ -21,15 +21,9 @@
|
|||
|
||||
from . import views
|
||||
|
||||
urls_view = [
|
||||
# (r"radius/nas-interface-from-id/(?P<nas_id>.+)$", views.nas_from_id_view),
|
||||
# (r"radius/nas-from-machine-type/(?P<machine_type>.+)$", views.NasFromMachineTypeView),
|
||||
# (r"radius/user-from-username/(?P<username>.+)$", views.UserFromUsernameView),
|
||||
# (r"radius/interface-from-mac-address/(?P<mac_address>.+)$", views.InterfaceFromMacAddressView),
|
||||
]
|
||||
urls_functional_view = [
|
||||
(r"radius/authorize/(?P<nas_id>[^/]+)/(?P<username>.+)/(?P<mac_address>[0-9a-fA-F:\-]{17})$",
|
||||
(r"radius/authorize/(?P<nas_id>[^/]+)/(?P<username>.+)/(?P<mac_address>[0-9a-fA-F\:\-]{17})$",
|
||||
views.authorize, None),
|
||||
(r"radius/post_auth/(?P<nas_id>[^/]+)/(?P<nas_port>.+)/(?P<user_mac>[0-9a-fA-F:\-]{17})$",
|
||||
(r"radius/post_auth/(?P<nas_id>[^/]+)/(?P<nas_port>.+)/(?P<user_mac>[0-9a-fA-F\:\-]{17})$",
|
||||
views.post_auth, None),
|
||||
]
|
||||
|
|
|
@ -1,5 +1,5 @@
|
|||
# -*- mode: python; coding: utf-8 -*-
|
||||
# Re2o est un logiciel d'administration développé initiallement au rezometz. Il
|
||||
# Re2o est un logiciel d'administration développé initiallement au Rézo Metz. Il
|
||||
# se veut agnostique au réseau considéré, de manière à être installable en
|
||||
# quelques clics.
|
||||
#
|
||||
|
@ -62,7 +62,7 @@ def authorize(request, nas_id, username, mac_address):
|
|||
|
||||
|
||||
class PostAuthResponse:
|
||||
def __init__(self, nas, room_users, port, port_profile, switch, user_interface, radius_option, EMAIL_STATE_UNVERIFIED, RADIUS_OPTION_REJECT):
|
||||
def __init__(self, nas, room_users, port, port_profile, switch, user_interface, radius_option, EMAIL_STATE_UNVERIFIED, RADIUS_OPTION_REJECT, USER_STATE_ACTIVE):
|
||||
self.nas = nas
|
||||
self.room_users = room_users
|
||||
self.port = port
|
||||
|
@ -72,6 +72,7 @@ class PostAuthResponse:
|
|||
self.radius_option = radius_option
|
||||
self.EMAIL_STATE_UNVERIFIED = EMAIL_STATE_UNVERIFIED
|
||||
self.RADIUS_OPTION_REJECT = RADIUS_OPTION_REJECT
|
||||
self.USER_STATE_ACTIVE = USER_STATE_ACTIVE
|
||||
|
||||
def can_view(self, user):
|
||||
return [True]
|
||||
|
@ -84,14 +85,16 @@ def post_auth(request, nas_id, nas_port, user_mac):
|
|||
Q(domain=Domain.objects.filter(name=nas_id))
|
||||
| Q(ipv4=IpList.objects.filter(ipv4=nas_id))
|
||||
).first()
|
||||
print(nas_id)
|
||||
nas_type = None
|
||||
if nas_interface:
|
||||
nas_type = Nas.objects.filter(
|
||||
nas_type=nas_interface.machine_type).first()
|
||||
|
||||
# get switch
|
||||
switch = Switch.objects.filter(machine_ptr=nas_interface.machine).first()
|
||||
switch = None
|
||||
if nas_interface:
|
||||
switch = Switch.objects.filter(
|
||||
machine_ptr=nas_interface.machine).first()
|
||||
if hasattr(nas_interface.machine, "switch"):
|
||||
stack = nas_interface.machine.switch.stack
|
||||
if stack:
|
||||
|
@ -106,6 +109,8 @@ def post_auth(request, nas_id, nas_port, user_mac):
|
|||
port_number = nas_port.split(".")[0].split("/")[-1][-2:]
|
||||
port = Port.objects.filter(switch=switch, port=port_number).first()
|
||||
|
||||
port_profile = None
|
||||
if port:
|
||||
port_profile = port.get_port_profile
|
||||
|
||||
# get user_interface
|
||||
|
@ -117,6 +122,8 @@ def post_auth(request, nas_id, nas_port, user_mac):
|
|||
)
|
||||
|
||||
# get room users
|
||||
room_users = []
|
||||
if port:
|
||||
room_users = User.objects.filter(
|
||||
Q(club__room=port.room) | Q(adherent__room=port.room)
|
||||
)
|
||||
|
@ -127,7 +134,8 @@ def post_auth(request, nas_id, nas_port, user_mac):
|
|||
|
||||
EMAIL_STATE_UNVERIFIED = User.EMAIL_STATE_UNVERIFIED
|
||||
RADIUS_OPTION_REJECT = RadiusOption.REJECT
|
||||
USER_STATE_ACTIVE = User.STATE_ACTIVE
|
||||
serialized = serializers.PostAuthResponseSerializer(
|
||||
PostAuthResponse(nas_type, room_users, port, port_profile, switch, user_interface, radius_option, EMAIL_STATE_UNVERIFIED, RADIUS_OPTION_REJECT))
|
||||
PostAuthResponse(nas_type, room_users, port, port_profile, switch, user_interface, radius_option, EMAIL_STATE_UNVERIFIED, RADIUS_OPTION_REJECT, USER_STATE_ACTIVE))
|
||||
|
||||
return Response(data=serialized.data)
|
||||
|
|
Loading…
Reference in a new issue