8
0
Fork 0
mirror of https://gitlab2.federez.net/re2o/re2o synced 2024-11-23 11:53:12 +00:00
re2o/api/views.py
2018-06-20 11:38:58 +00:00

670 lines
24 KiB
Python

# 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 © 2018 Maël Kervella
#
# 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.
"""api.views
The views for the API app. They should all return JSON data and not fallback on
HTML pages such as the login and index pages for a better integration.
"""
from django.contrib.auth.decorators import login_required, permission_required
from django.views.decorators.csrf import csrf_exempt
from rest_framework.response import Response
from rest_framework import status, mixins, generics, viewsets
from re2o.utils import (
all_has_access,
all_active_assigned_interfaces,
filter_active_interfaces
)
from users.models import (
User,
Club,
Adherent,
ServiceUser,
School,
ListRight,
ListShell,
Ban,
Whitelist
)
from machines.models import (
Service_link,
Service,
Interface,
Domain,
IpType,
Mx,
Ns,
Txt,
Srv,
Extension,
OuverturePortList,
OuverturePort
)
from .serializers import (
UserSerializer,
ClubSerializer,
AdherentSerializer,
ServiceUserSerializer,
SchoolSerializer,
ListRightSerializer,
ShellSerializer,
BanSerializer,
WhitelistSerializer
)
class UserViewSet(viewsets.ReadOnlyModelViewSet):
queryset = User.objects.all()
serializer_class = UserSerializer
class ClubViewSet(viewsets.ReadOnlyModelViewSet):
queryset = Club.objects.all()
serializer_class = ClubSerializer
class AdherentViewSet(viewsets.ReadOnlyModelViewSet):
queryset = Adherent.objects.all()
serializer_class = AdherentSerializer
class ServiceUserViewSet(viewsets.ReadOnlyModelViewSet):
queryset = ServiceUser.objects.all()
serializer_class = ServiceUserSerializer
class SchoolViewSet(viewsets.ReadOnlyModelViewSet):
queryset = School.objects.all()
serializer_class = SchoolSerializer
class ListRightViewSet(viewsets.ReadOnlyModelViewSet):
queryset = ListRight.objects.all()
serializer_class = ListRightSerializer
class ShellViewSet(viewsets.ReadOnlyModelViewSet):
queryset = ListShell.objects.all()
serializer_class = ShellSerializer
class BanViewSet(viewsets.ReadOnlyModelViewSet):
queryset = Ban.objects.all()
serializer_class = BanSerializer
class WhitelistViewSet(viewsets.ReadOnlyModelViewSet):
queryset = Whitelist.objects.all()
serializer_class = WhitelistSerializer
#
# @csrf_exempt
# @login_required
# @permission_required('machines.serveur')
# @accept_method(['GET'])
# def services(_request):
# """The list of the different services and servers couples
#
# Return:
# GET:
# A JSONSuccess response with a field `data` containing:
# * a list of dictionnaries (one for each service-server couple)
# containing:
# * a field `server`: the server name
# * a field `service`: the service name
# * a field `need_regen`: does the service need a regeneration ?
# """
#
# service_link = (Service_link.objects.all()
# .select_related('server__domain')
# .select_related('service'))
# seria = ServicesSerializer(service_link, many=True)
# return JSONSuccess(seria.data)
#
#
# @csrf_exempt
# @login_required
# @permission_required('machines.serveur')
# @accept_method(['GET', 'POST'])
# def services_server_service_regen(request, server_name, service_name):
# """The status of a particular service linked to a particular server.
# Mark the service as regenerated if POST used.
#
# Returns:
# GET:
# A JSONSucess response with a field `data` containing:
# * a field `need_regen`: does the service need a regeneration ?
#
# POST:
# An empty JSONSuccess response.
# """
#
# query = Service_link.objects.filter(
# service__in=Service.objects.filter(service_type=service_name),
# server__in=Interface.objects.filter(
# domain__in=Domain.objects.filter(name=server_name)
# )
# )
# if not query:
# return JSONError("This service is not active for this server")
#
# service = query.first()
# if request.method == 'GET':
# return JSONSuccess({'need_regen': service.need_regen()})
# else:
# service.done_regen()
# return JSONSuccess()
#
#
# @csrf_exempt
# @login_required
# @permission_required('machines.serveur')
# @accept_method(['GET'])
# def services_server(_request, server_name):
# """The list of services attached to a specific server
#
# Returns:
# GET:
# A JSONSuccess response with a field `data` containing:
# * a list of dictionnaries (one for each service) containing:
# * a field `name`: the name of a service
# """
#
# query = Service_link.objects.filter(
# server__in=Interface.objects.filter(
# domain__in=Domain.objects.filter(name=server_name)
# )
# )
# if not query:
# return JSONError("This service is not active for this server")
#
# services_objects = query.all()
# seria = ServiceLinkSerializer(services_objects, many=True)
# return JSONSuccess(seria.data)
#
#
# @csrf_exempt
# @login_required
# @permission_required('machines.serveur')
# @accept_method(['GET'])
# def dns_mac_ip_dns(_request):
# """The list of all active interfaces with all the associated infos
# (MAC, IP, IpType, DNS name and associated zone extension)
#
# Returns:
# GET:
# A JSON Success response with a field `data` containing:
# * a list of dictionnaries (one for each interface) containing:
# * a field `ipv4` containing:
# * a field `ipv4`: the ip for this interface
# * a field `ip_type`: the name of the IpType of this interface
# * a field `ipv6` containing `null` if ipv6 is deactivated else:
# * a field `ipv6`: the ip for this interface
# * a field `ip_type`: the name of the IpType of this interface
# * a field `mac_address`: the MAC of this interface
# * a field `domain`: the DNS name for this interface
# * a field `extension`: the extension for the DNS zone of this
# interface
# """
#
# interfaces = all_active_assigned_interfaces(full=True)
# seria = FullInterfaceSerializer(interfaces, many=True)
# return JSONSuccess(seria.data)
#
#
# @csrf_exempt
# @login_required
# @permission_required('machines.serveur')
# @accept_method(['GET'])
# def dns_alias(_request):
# """The list of all the alias used and the DNS info associated
#
# Returns:
# GET:
# A JSON Success response with a field `data` containing:
# * a list of dictionnaries (one for each alias) containing:
# * a field `name`: the alias used
# * a field `cname`: the target of the alias (real name of the
# interface)
# * a field `cname_entry`: the entry to write in the DNS to have
# the alias
# * a field `extension`: the extension for the DNS zone of this
# interface
# """
#
# alias = (Domain.objects
# .filter(interface_parent=None)
# .filter(
# cname__in=Domain.objects.filter(
# interface_parent__in=Interface.objects.exclude(ipv4=None)
# )
# )
# .select_related('extension')
# .select_related('cname__extension'))
# seria = DomainSerializer(alias, many=True)
# return JSONSuccess(seria.data)
#
#
# @csrf_exempt
# @login_required
# @permission_required('machines.serveur')
# @accept_method(['GET'])
# def accesspoint_ip_dns(_request):
# """The list of all active interfaces with all the associated infos
# (MAC, IP, IpType, DNS name and associated zone extension)
#
# Only display access points. Use to gen unifi controler names
#
# Returns:
# GET:
# A JSON Success response with a field `data` containing:
# * a list of dictionnaries (one for each interface) containing:
# * a field `ipv4` containing:
# * a field `ipv4`: the ip for this interface
# * a field `ip_type`: the name of the IpType of this interface
# * a field `ipv6` containing `null` if ipv6 is deactivated else:
# * a field `ipv6`: the ip for this interface
# * a field `ip_type`: the name of the IpType of this interface
# * a field `mac_address`: the MAC of this interface
# * a field `domain`: the DNS name for this interface
# * a field `extension`: the extension for the DNS zone of this
# interface
# """
#
# interfaces = (all_active_assigned_interfaces(full=True)
# .filter(machine__accesspoint__isnull=False))
# seria = FullInterfaceSerializer(interfaces, many=True)
# return JSONSuccess(seria.data)
#
#
# @csrf_exempt
# @login_required
# @permission_required('machines.serveur')
# @accept_method(['GET'])
# def dns_corresp(_request):
# """The list of the IpTypes possible with the infos about each
#
# Returns:
# GET:
# A JSON Success response with a field `data` containing:
# * a list of dictionnaries (one for each IpType) containing:
# * a field `type`: the name of the type
# * a field `extension`: the DNS extension associated
# * a field `domain_ip_start`: the first ip to use for this type
# * a field `domain_ip_stop`: the last ip to use for this type
# * a field `prefix_v6`: `null` if IPv6 is deactivated else the
# prefix to use
# * a field `ouverture_ports_tcp_in`: the policy for TCP IN ports
# * a field `ouverture_ports_tcp_out`: the policy for TCP OUT ports
# * a field `ouverture_ports_udp_in`: the policy for UDP IN ports
# * a field `ouverture_ports_udp_out`: the policy for UDP OUT ports
# """
#
# ip_type = IpType.objects.all().select_related('extension')
# seria = TypeSerializer(ip_type, many=True)
# return JSONSuccess(seria.data)
#
#
# @csrf_exempt
# @login_required
# @permission_required('machines.serveur')
# @accept_method(['GET'])
# def dns_mx(_request):
# """The list of MX record to add to the DNS
#
# Returns:
# GET:
# A JSON Success response with a field `data` containing:
# * a list of dictionnaries (one for each MX record) containing:
# * a field `zone`: the extension for the concerned zone
# * a field `priority`: the priority to use
# * a field `name`: the name of the target
# * a field `mx_entry`: the full entry to add in the DNS for this
# MX record
# """
#
# mx = (Mx.objects.all()
# .select_related('zone')
# .select_related('name__extension'))
# seria = MxSerializer(mx, many=True)
# return JSONSuccess(seria.data)
#
#
# @csrf_exempt
# @login_required
# @permission_required('machines.serveur')
# @accept_method(['GET'])
# def dns_ns(_request):
# """The list of NS record to add to the DNS
#
# Returns:
# GET:
# A JSON Success response with a field `data` containing:
# * a list of dictionnaries (one for each NS record) containing:
# * a field `zone`: the extension for the concerned zone
# * a field `ns`: the DNS name for the NS server targeted
# * a field `ns_entry`: the full entry to add in the DNS for this
# NS record
# """
#
# ns = (Ns.objects
# .exclude(
# ns__in=Domain.objects.filter(
# interface_parent__in=Interface.objects.filter(ipv4=None)
# )
# )
# .select_related('zone')
# .select_related('ns__extension'))
# seria = NsSerializer(ns, many=True)
# return JSONSuccess(seria.data)
#
#
# @csrf_exempt
# @login_required
# @permission_required('machines.serveur')
# @accept_method(['GET'])
# def dns_txt(_request):
# """The list of TXT record to add to the DNS
#
# Returns:
# GET:
# A JSON Success response with a field `data` containing:
# * a list of dictionnaries (one for each TXT record) containing:
# * a field `zone`: the extension for the concerned zone
# * a field `field1`: the first field in the record (target)
# * a field `field2`: the second field in the record (value)
# * a field `txt_entry`: the full entry to add in the DNS for this
# TXT record
# """
#
# txt = Txt.objects.all().select_related('zone')
# seria = TxtSerializer(txt, many=True)
# return JSONSuccess(seria.data)
#
#
# @csrf_exempt
# @login_required
# @permission_required('machines.serveur')
# @accept_method(['GET'])
# def dns_srv(_request):
# """The list of SRV record to add to the DNS
#
# Returns:
# GET:
# A JSON Success response with a field `data` containing:
# * a list of dictionnaries (one for each SRV record) containing:
# * a field `extension`: the extension for the concerned zone
# * a field `service`: the name of the service concerned
# * a field `protocole`: the name of the protocol to use
# * a field `ttl`: the Time To Live to use
# * a field `priority`: the priority for this service
# * a field `weight`: the weight for same priority entries
# * a field `port`: the port targeted
# * a field `target`: the interface targeted by this service
# * a field `srv_entry`: the full entry to add in the DNS for this
# SRV record
# """
#
# srv = (Srv.objects.all()
# .select_related('extension')
# .select_related('target__extension'))
# seria = SrvSerializer(srv, many=True)
# return JSONSuccess(seria.data)
#
#
# @csrf_exempt
# @login_required
# @permission_required('machines.serveur')
# @accept_method(['GET'])
# def dns_zones(_request):
# """The list of the zones managed
#
# Returns:
# GET:
# A JSON Success response with a field `data` containing:
# * a list of dictionnaries (one for each zone) containing:
# * a field `name`: the extension for the zone
# * a field `origin`: the server IPv4 for the orgin of the zone
# * a field `origin_v6`: `null` if ipv6 is deactivated else the
# server IPv6 for the origin of the zone
# * a field `soa` containing:
# * a field `mail` containing the mail to contact in case of
# problem with the zone
# * a field `param` containing the full soa paramters to use
# in the DNS for this zone
# * a field `zone_entry`: the full entry to add in the DNS for the
# origin of the zone
# """
#
# zones = Extension.objects.all().select_related('origin')
# seria = ExtensionSerializer(zones, many=True)
# return JSONSuccess(seria.data)
#
#
# @csrf_exempt
# @login_required
# @permission_required('machines.serveur')
# @accept_method(['GET'])
# def firewall_ouverture_ports(_request):
# """The list of the ports authorized to be openned by the firewall
#
# Returns:
# GET:
# A JSONSuccess response with a `data` field containing:
# * a field `ipv4` containing:
# * a field `tcp_in` containing:
# * a list of port number where ipv4 tcp in should be ok
# * a field `tcp_out` containing:
# * a list of port number where ipv4 tcp ou should be ok
# * a field `udp_in` containing:
# * a list of port number where ipv4 udp in should be ok
# * a field `udp_out` containing:
# * a list of port number where ipv4 udp out should be ok
# * a field `ipv6` containing:
# * a field `tcp_in` containing:
# * a list of port number where ipv6 tcp in should be ok
# * a field `tcp_out` containing:
# * a list of port number where ipv6 tcp ou should be ok
# * a field `udp_in` containing:
# * a list of port number where ipv6 udp in should be ok
# * a field `udp_out` containing:
# * a list of port number where ipv6 udp out should be ok
# """
#
# r = {'ipv4': {}, 'ipv6': {}}
# for o in (OuverturePortList.objects.all()
# .prefetch_related('ouvertureport_set')
# .prefetch_related('interface_set', 'interface_set__ipv4')):
# pl = {
# "tcp_in": set(map(
# str,
# o.ouvertureport_set.filter(
# protocole=OuverturePort.TCP,
# io=OuverturePort.IN
# )
# )),
# "tcp_out": set(map(
# str,
# o.ouvertureport_set.filter(
# protocole=OuverturePort.TCP,
# io=OuverturePort.OUT
# )
# )),
# "udp_in": set(map(
# str,
# o.ouvertureport_set.filter(
# protocole=OuverturePort.UDP,
# io=OuverturePort.IN
# )
# )),
# "udp_out": set(map(
# str,
# o.ouvertureport_set.filter(
# protocole=OuverturePort.UDP,
# io=OuverturePort.OUT
# )
# )),
# }
# for i in filter_active_interfaces(o.interface_set):
# if i.may_have_port_open():
# d = r['ipv4'].get(i.ipv4.ipv4, {})
# d["tcp_in"] = (d.get("tcp_in", set())
# .union(pl["tcp_in"]))
# d["tcp_out"] = (d.get("tcp_out", set())
# .union(pl["tcp_out"]))
# d["udp_in"] = (d.get("udp_in", set())
# .union(pl["udp_in"]))
# d["udp_out"] = (d.get("udp_out", set())
# .union(pl["udp_out"]))
# r['ipv4'][i.ipv4.ipv4] = d
# if i.ipv6():
# for ipv6 in i.ipv6():
# d = r['ipv6'].get(ipv6.ipv6, {})
# d["tcp_in"] = (d.get("tcp_in", set())
# .union(pl["tcp_in"]))
# d["tcp_out"] = (d.get("tcp_out", set())
# .union(pl["tcp_out"]))
# d["udp_in"] = (d.get("udp_in", set())
# .union(pl["udp_in"]))
# d["udp_out"] = (d.get("udp_out", set())
# .union(pl["udp_out"]))
# r['ipv6'][ipv6.ipv6] = d
# return JSONSuccess(r)
#
#
# @csrf_exempt
# @login_required
# @permission_required('machines.serveur')
# @accept_method(['GET'])
# def dhcp_mac_ip(_request):
# """The list of all active interfaces with all the associated infos
# (MAC, IP, IpType, DNS name and associated zone extension)
#
# Returns:
# GET:
# A JSON Success response with a field `data` containing:
# * a list of dictionnaries (one for each interface) containing:
# * a field `ipv4` containing:
# * a field `ipv4`: the ip for this interface
# * a field `ip_type`: the name of the IpType of this interface
# * a field `mac_address`: the MAC of this interface
# * a field `domain`: the DNS name for this interface
# * a field `extension`: the extension for the DNS zone of this
# interface
# """
#
# interfaces = all_active_assigned_interfaces()
# seria = InterfaceSerializer(interfaces, many=True)
# return JSONSuccess(seria.data)
#
#
# @csrf_exempt
# @login_required
# @permission_required('machines.serveur')
# @accept_method(['GET'])
# def mailing_standard(_request):
# """All the available standard mailings.
#
# Returns:
# GET:
# A JSONSucess response with a field `data` containing:
# * a list of dictionnaries (one for each mailing) containing:
# * a field `name`: the name of a mailing
# """
#
# return JSONSuccess([
# {'name': 'adherents'}
# ])
#
#
# @csrf_exempt
# @login_required
# @permission_required('machines.serveur')
# @accept_method(['GET'])
# def mailing_standard_ml_members(_request, ml_name):
# """All the members of a specific standard mailing
#
# Returns:
# GET:
# A JSONSucess response with a field `data` containing:
# * a list if dictionnaries (one for each member) containing:
# * a field `email`: the email of the member
# * a field `name`: the name of the member
# * a field `surname`: the surname of the member
# * a field `pseudo`: the pseudo of the member
# """
#
# # All with active connextion
# if ml_name == 'adherents':
# members = all_has_access().values('email').distinct()
# # Unknown mailing
# else:
# return JSONError("This mailing does not exist")
# seria = MailingMemberSerializer(members, many=True)
# return JSONSuccess(seria.data)
#
#
# @csrf_exempt
# @login_required
# @permission_required('machines.serveur')
# @accept_method(['GET'])
# def mailing_club(_request):
# """All the available club mailings.
#
# Returns:
# GET:
# A JSONSucess response with a field `data` containing:
# * a list of dictionnaries (one for each mailing) containing:
# * a field `name` indicating the name of a mailing
# """
#
# clubs = Club.objects.filter(mailing=True).values('pseudo')
# seria = MailingSerializer(clubs, many=True)
# return JSONSuccess(seria.data)
#
#
# @csrf_exempt
# @login_required
# @permission_required('machines.serveur')
# @accept_method(['GET'])
# def mailing_club_ml_members(_request, ml_name):
# """All the members of a specific club mailing
#
# Returns:
# GET:
# A JSONSucess response with a field `data` containing:
# * a list if dictionnaries (one for each member) containing:
# * a field `email`: the email of the member
# * a field `name`: the name of the member
# * a field `surname`: the surname of the member
# * a field `pseudo`: the pseudo of the member
# """
#
# try:
# club = Club.objects.get(mailing=True, pseudo=ml_name)
# except Club.DoesNotExist:
# return JSONError("This mailing does not exist")
# members = club.administrators.all().values('email').distinct()
# seria = MailingMemberSerializer(members, many=True)
# return JSONSuccess(seria.data)