# -*- mode: python; coding: utf-8 -*-
# Re2o un logiciel d'administration développé initiallement au rezometz. Il
# se veut agnostique au réseau considéré, de manière à être installable en
# quelques clics.
#
# Copyright © 2017  Gabriel Détraz
# Copyright © 2017  Goulven Kermarec
# Copyright © 2017  Augustin Lemesle
#
# This program is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation; either version 2 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License along
# with this program; if not, write to the Free Software Foundation, Inc.,
# 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
"""
Reglages généraux, machines, utilisateurs, mail, general pour l'application.
"""
from __future__ import unicode_literals

from django.utils.functional import cached_property
from django.utils import timezone
from django.db import models
from django.db.models.signals import post_save
from django.dispatch import receiver
from django.core.cache import cache
from django.forms import ValidationError
from django.utils.translation import ugettext_lazy as _

import machines.models

from re2o.mixins import AclMixin
from re2o.aes_field import AESEncryptedField

from datetime import timedelta


class PreferencesModel(models.Model):
    """ Base object for the Preferences objects
    Defines methods to handle the cache of the settings (they should
    not change a lot) """
    @classmethod
    def set_in_cache(cls):
        """ Save the preferences in a server-side cache """
        instance, _created = cls.objects.get_or_create()
        cache.set(cls().__class__.__name__.lower(), instance, None)
        return instance

    @classmethod
    def get_cached_value(cls, key):
        """ Get the preferences from the server-side cache """
        instance = cache.get(cls().__class__.__name__.lower())
        if instance is None:
            instance = cls.set_in_cache()
        return getattr(instance, key)

    class Meta:
        abstract = True


class OptionalUser(AclMixin, PreferencesModel):
    """Options pour l'user : obligation ou nom du telephone,
    activation ou non du solde, autorisation du negatif, fingerprint etc"""

    is_tel_mandatory = models.BooleanField(default=True)
    gpg_fingerprint = models.BooleanField(default=True)
    all_can_create_club = models.BooleanField(
        default=False,
        help_text=_("Users can create a club")
    )
    all_can_create_adherent = models.BooleanField(
        default=False,
        help_text=_("Users can create a member"),
    )

    shell_default = models.OneToOneField(
        'users.ListShell',
        on_delete=models.PROTECT,
        blank=True,
        null=True
    )
    self_change_shell = models.BooleanField(
        default=False,
        help_text=_("Users can edit their shell")
    )
    self_change_room = models.BooleanField(
        default=False,
        help_text=_("Users can edit their room")
    )
    local_email_accounts_enabled = models.BooleanField(
        default=False,
        help_text=_("Enable local email accounts for users")
    )
    local_email_domain = models.CharField(
        max_length=32,
        default="@example.org",
        help_text=_("Domain to use for local email accounts")
    )
    max_email_address = models.IntegerField(
        default=15,
        help_text=_("Maximum number of local email addresses for a standard"
                    " user")
    )
    delete_notyetactive = models.IntegerField(
        default=15,
        help_text=_("Inactive users will be deleted after this number of days")
    )
    self_adhesion = models.BooleanField(
        default=False,
        help_text=_("A new user can create their account on Re2o")
    )

    class Meta:
        permissions = (
            ("view_optionaluser", _("Can view the user options")),
        )
        verbose_name = _("user options")

    def clean(self):
        """Clean model:
        Check the mail_extension
        """
        if self.local_email_domain[0] != "@":
            raise ValidationError(_("Email domain must begin with @"))


@receiver(post_save, sender=OptionalUser)
def optionaluser_post_save(**kwargs):
    """Ecriture dans le cache"""
    user_pref = kwargs['instance']
    user_pref.set_in_cache()


class OptionalMachine(AclMixin, PreferencesModel):
    """Options pour les machines : maximum de machines ou d'alias par user
    sans droit, activation de l'ipv6"""

    SLAAC = 'SLAAC'
    DHCPV6 = 'DHCPV6'
    DISABLED = 'DISABLED'
    CHOICE_IPV6 = (
        (SLAAC, _("Autoconfiguration by RA")),
        (DHCPV6, _("IP addresses assigning by DHCPv6")),
        (DISABLED, _("Disabled")),
    )

    password_machine = models.BooleanField(default=False)
    max_lambdauser_interfaces = models.IntegerField(default=10)
    max_lambdauser_aliases = models.IntegerField(default=10)
    ipv6_mode = models.CharField(
        max_length=32,
        choices=CHOICE_IPV6,
        default='DISABLED'
    )
    create_machine = models.BooleanField(
        default=True
    )

    @cached_property
    def ipv6(self):
        """ Check if the IPv6 option is activated """
        return not self.get_cached_value('ipv6_mode') == 'DISABLED'

    class Meta:
        permissions = (
            ("view_optionalmachine", _("Can view the machine options")),
        )
        verbose_name = _("machine options")


@receiver(post_save, sender=OptionalMachine)
def optionalmachine_post_save(**kwargs):
    """Synchronisation ipv6 et ecriture dans le cache"""
    machine_pref = kwargs['instance']
    machine_pref.set_in_cache()
    if machine_pref.ipv6_mode != "DISABLED":
        for interface in machines.models.Interface.objects.all():
            interface.sync_ipv6()


class OptionalTopologie(AclMixin, PreferencesModel):
    """Reglages pour la topologie : mode d'accès radius, vlan où placer
    les machines en accept ou reject"""
    MACHINE = 'MACHINE'
    DEFINED = 'DEFINED'
    CHOICE_RADIUS = (
        (MACHINE, _("On the IP range's VLAN of the machine")),
        (DEFINED, _("Preset in 'VLAN for machines accepted by RADIUS'")),
    )
    CHOICE_PROVISION = (
        ('sftp', 'sftp'),
        ('tftp', 'tftp'),
    )

    switchs_web_management = models.BooleanField(
        default=False,
        help_text="Web management, activé si provision automatique"
    )
    switchs_web_management_ssl = models.BooleanField(
        default=False,
        help_text="Web management ssl. Assurez-vous que un certif est installé sur le switch !"
    )
    switchs_rest_management = models.BooleanField(
        default=False,
        help_text="Rest management, activé si provision auto"
    )
    switchs_ip_type = models.OneToOneField(
        'machines.IpType',
        on_delete=models.PROTECT,
        blank=True,
        null=True,
        help_text="Plage d'ip de management des switchs"
    )
    switchs_provision = models.CharField(
        max_length=32,
        choices=CHOICE_PROVISION,
        default='tftp',
        help_text="Mode de récupération des confs par les switchs"
    )
    sftp_login = models.CharField(
        max_length=32,
        null=True,
        blank=True,
        help_text="Login sftp des switchs"
    )
    sftp_pass = AESEncryptedField(
        max_length=63,
        null=True,
        blank=True,
        help_text="Mot de passe sftp"
    )

    @cached_property
    def provisioned_switchs(self):
        """Liste des switches provisionnés"""
        from topologie.models import Switch
        return Switch.objects.filter(automatic_provision=True).order_by('interface__domain__name')

    @cached_property
    def switchs_management_interface(self):
        """Return the ip of the interface that the switch have to contact to get it's config"""
        if self.switchs_ip_type:
            from machines.models import Role, Interface
            return Interface.objects.filter(machine__interface__in=Role.interface_for_roletype("switch-conf-server")).filter(type__ip_type=self.switchs_ip_type).first()
        else:
            return None

    @cached_property
    def switchs_management_interface_ip(self):
        """Same, but return the ipv4"""
        if not self.switchs_management_interface:
            return None
        return self.switchs_management_interface.ipv4

    @cached_property
    def switchs_management_sftp_creds(self):
        """Credentials des switchs pour provion sftp"""
        if self.sftp_login and self.sftp_pass:
            return {'login' : self.sftp_login, 'pass' : self.sftp_pass}
        else:
            return None

    @cached_property
    def switchs_management_utils(self):
        """Used for switch_conf, return a list of ip on vlans"""
        from machines.models import Role, Ipv6List, Interface
        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)}

        ntp_servers = Role.all_interfaces_for_roletype("ntp-server").filter(type__ip_type=self.switchs_ip_type)
        log_servers = Role.all_interfaces_for_roletype("log-server").filter(type__ip_type=self.switchs_ip_type)
        radius_servers = Role.all_interfaces_for_roletype("radius-server").filter(type__ip_type=self.switchs_ip_type)
        dhcp_servers = Role.all_interfaces_for_roletype("dhcp-server")
        dns_recursive_servers = Role.all_interfaces_for_roletype("dns-recursif-server").filter(type__ip_type=self.switchs_ip_type)
        subnet = None
        subnet6 = None
        if self.switchs_ip_type:
            subnet = self.switchs_ip_type.ip_set_full_info
            subnet6 = self.switchs_ip_type.ip6_set_full_info
        return {'ntp_servers': return_ips_dict(ntp_servers), 'log_servers': return_ips_dict(log_servers), 'radius_servers': return_ips_dict(radius_servers), 'dhcp_servers': return_ips_dict(dhcp_servers), 'dns_recursive_servers': return_ips_dict(dns_recursive_servers), 'subnet': subnet, 'subnet6': subnet6}

    @cached_property
    def provision_switchs_enabled(self):
        """Return true if all settings are ok : switchs on automatic provision,
        ip_type"""
        return bool(self.provisioned_switchs and self.switchs_ip_type and SwitchManagementCred.objects.filter(default_switch=True).exists() and self.switchs_management_interface_ip and bool(self.switchs_provision != 'sftp'  or self.switchs_management_sftp_creds))
    class Meta:
        permissions = (
            ("view_optionaltopologie", _("Can view the topology options")),
        )
        verbose_name = _("topology options")


@receiver(post_save, sender=OptionalTopologie)
def optionaltopologie_post_save(**kwargs):
    """Ecriture dans le cache"""
    topologie_pref = kwargs['instance']
    topologie_pref.set_in_cache()


class RadiusKey(AclMixin, models.Model):
    """Class of a radius key"""
    radius_key = AESEncryptedField(
        max_length=255,
        help_text="Clef radius"
    )
    comment = models.CharField(
        max_length=255,
        null=True,
        blank=True,
        help_text="Commentaire de cette clef"
    )
    default_switch = models.BooleanField(
        default=True,
        unique=True,
        help_text= "Clef par défaut des switchs"
    )

    class Meta:
        permissions = (
            ("view_radiuskey", "Peut voir un objet radiuskey"),
        )

    def __str__(self):
        return "Clef radius " + str(self.id) + " " + str(self.comment)


class SwitchManagementCred(AclMixin, models.Model):
    """Class of a management creds of a switch, for rest management"""
    management_id = models.CharField(
        max_length=63,
        help_text="Login du switch"
    )
    management_pass = AESEncryptedField(
        max_length=63,
        help_text="Mot de passe"
    )
    default_switch = models.BooleanField(
        default=True,
        unique=True,
        help_text= "Creds par défaut des switchs"
    )

    class Meta:
        permissions = (
            ("view_switchmanagementcred", "Peut voir un objet switchmanagementcred"),
        )

    def __str__(self):
        return "Identifiant " + str(self.management_id)


class Reminder(AclMixin, models.Model):
    """Options pour les mails de notification de fin d'adhésion.
    Days: liste des nombres de jours pour lesquells un mail est envoyé
    optionalMessage: message additionel pour le mail
    """
    PRETTY_NAME="Options pour le mail de fin d'adhésion"

    days = models.IntegerField(
        default=7,
        unique=True,
        help_text="Délais entre le mail et la fin d'adhésion"
    )
    message = models.CharField(
        max_length=255,
        default="",
        null=True,
        blank=True,
        help_text="Message affiché spécifiquement pour ce rappel"
    )

    class Meta:
        permissions = (
            ("view_reminder", "Peut voir un objet reminder"),
        )

    def users_to_remind(self):
        from re2o.utils import all_has_access
        date = timezone.now().replace(minute=0,hour=0)
        futur_date = date + timedelta(days=self.days)
        users = all_has_access(futur_date).exclude(pk__in = all_has_access(futur_date + timedelta(days=1)))
        return users


class GeneralOption(AclMixin, PreferencesModel):
    """Options générales : nombre de resultats par page, nom du site,
    temps où les liens sont valides"""

    general_message_fr = models.TextField(
        default="",
        blank=True,
        help_text=_("General message displayed on the French version of the"
                    " website (e.g. in case of maintenance)")
    )
    general_message_en = models.TextField(
        default="",
        blank=True,
        help_text=_("General message displayed on the English version of the"
                    " website (e.g. in case of maintenance)")
    )
    search_display_page = models.IntegerField(default=15)
    pagination_number = models.IntegerField(default=25)
    pagination_large_number = models.IntegerField(default=8)
    req_expire_hrs = models.IntegerField(default=48)
    site_name = models.CharField(max_length=32, default="Re2o")
    email_from = models.EmailField(default="www-data@example.com")
    main_site_url = models.URLField(max_length=255, default="http://re2o.example.org")
    GTU_sum_up = models.TextField(
        default="",
        blank=True,
    )
    GTU = models.FileField(
        upload_to='',
        default="",
        null=True,
        blank=True,
    )

    class Meta:
        permissions = (
            ("view_generaloption", _("Can view the general options")),
        )
        verbose_name = _("general options")


@receiver(post_save, sender=GeneralOption)
def generaloption_post_save(**kwargs):
    """Ecriture dans le cache"""
    general_pref = kwargs['instance']
    general_pref.set_in_cache()


class Service(AclMixin, models.Model):
    """Liste des services affichés sur la page d'accueil : url, description,
    image et nom"""
    name = models.CharField(max_length=32)
    url = models.URLField()
    description = models.TextField()
    image = models.ImageField(upload_to='logo', blank=True)

    class Meta:
        permissions = (
            ("view_service", _("Can view the service options")),
        )
        verbose_name = _("service")
        verbose_name_plural =_("services")

    def __str__(self):
        return str(self.name)

class MailContact(AclMixin, models.Model):
    """Contact email adress with a commentary."""

    address = models.EmailField(
        default = "contact@example.org",
        help_text = _("Contact email address")
    )

    commentary = models.CharField(
        blank = True,
        null = True,
        help_text = _(
            "Description of the associated email address."),
        max_length = 256
    )

    @cached_property
    def get_name(self):
        return self.address.split("@")[0]

    class Meta:
        permissions = (
            ("view_mailcontact", _("Can view a contact email address object")),
        )
        verbose_name = _("contact email address")
        verbose_name_plural = _("contact email addresses")

    def __str__(self):
        return(self.address)


class AssoOption(AclMixin, PreferencesModel):
    """Options générales de l'asso : siret, addresse, nom, etc"""

    name = models.CharField(
        default=_("Networking organisation school Something"),
        max_length=256
    )
    siret = models.CharField(default="00000000000000", max_length=32)
    adresse1 = models.CharField(default=_("Threadneedle Street"), max_length=128)
    adresse2 = models.CharField(default=_("London EC2R 8AH"), max_length=128)
    contact = models.EmailField(default="contact@example.org")
    telephone = models.CharField(max_length=15, default="0000000000")
    pseudo = models.CharField(default=_("Organisation"), max_length=32)
    utilisateur_asso = models.OneToOneField(
        'users.User',
        on_delete=models.PROTECT,
        blank=True,
        null=True
    )
    description = models.TextField(
        null=True,
        blank=True,
    )

    class Meta:
        permissions = (
            ("view_assooption", _("Can view the organisation options")),
        )
        verbose_name = _("organisation options")


@receiver(post_save, sender=AssoOption)
def assooption_post_save(**kwargs):
    """Ecriture dans le cache"""
    asso_pref = kwargs['instance']
    asso_pref.set_in_cache()


class HomeOption(AclMixin, PreferencesModel):
    """Settings of the home page (facebook/twitter etc)"""

    facebook_url = models.URLField(
        null=True,
        blank=True
    )
    twitter_url = models.URLField(
        null=True,
        blank=True
    )
    twitter_account_name = models.CharField(
        max_length=32,
        null=True,
        blank=True
    )

    class Meta:
        permissions = (
            ("view_homeoption", _("Can view the homepage options")),
        )
        verbose_name = _("homepage options")


@receiver(post_save, sender=HomeOption)
def homeoption_post_save(**kwargs):
    """Ecriture dans le cache"""
    home_pref = kwargs['instance']
    home_pref.set_in_cache()


class MailMessageOption(AclMixin, models.Model):
    """Reglages, mail de bienvenue et autre"""

    welcome_mail_fr = models.TextField(default="", help_text="Mail de bienvenue en français")
    welcome_mail_en = models.TextField(default="", help_text="Mail de bienvenue en anglais")

    class Meta:
        permissions = (
            ("view_mailmessageoption", _("Can view the email message"
                                         " options")),
        )
        verbose_name = _("email message options")


class RadiusOption(AclMixin, PreferencesModel):
    class Meta:
        verbose_name = _("radius policies")

    MACHINE = 'MACHINE'
    DEFINED = 'DEFINED'
    CHOICE_RADIUS = (
        (MACHINE, _("On the IP range's VLAN of the machine")),
        (DEFINED, _("Preset in 'VLAN for machines accepted by RADIUS'")),
    )
    REJECT = 'REJECT'
    SET_VLAN = 'SET_VLAN'
    CHOICE_POLICY = (
        (REJECT, _('Reject the machine')),
        (SET_VLAN, _('Place the machine on the VLAN'))
    )
    radius_general_policy = models.CharField(
        max_length=32,
        choices=CHOICE_RADIUS,
        default='DEFINED'
    )
    unknown_machine = models.CharField(
        max_length=32,
        choices=CHOICE_POLICY,
        default=REJECT,
        verbose_name=_("Policy for unknown machines"),
    )
    unknown_machine_vlan = models.ForeignKey(
        'machines.Vlan',
        on_delete=models.PROTECT,
        related_name='unknown_machine_vlan',
        blank=True,
        null=True,
        verbose_name=_('Unknown machine Vlan'),
        help_text=_(
            'Vlan for unknown machines if not rejected.'
        )
    )
    unknown_port = models.CharField(
        max_length=32,
        choices=CHOICE_POLICY,
        default=REJECT,
        verbose_name=_("Policy for unknown port"),
    )
    unknown_port_vlan = models.ForeignKey(
        'machines.Vlan',
        on_delete=models.PROTECT,
        related_name='unknown_port_vlan',
        blank=True,
        null=True,
        verbose_name=_('Unknown port Vlan'),
        help_text=_(
            'Vlan for unknown ports if not rejected.'
        )
    )
    unknown_room = models.CharField(
        max_length=32,
        choices=CHOICE_POLICY,
        default=REJECT,
        verbose_name=_(
            "Policy for machine connecting from "
            "unregistered room (relevant on ports with STRICT "
            "radius mode)"
        ),
    )
    unknown_room_vlan = models.ForeignKey(
        'machines.Vlan',
        related_name='unknown_room_vlan',
        on_delete=models.PROTECT,
        blank=True,
        null=True,
        verbose_name=_('Unknown room Vlan'),
        help_text=_(
            'Vlan for unknown room if not rejected.'
        )
    )
    non_member = models.CharField(
        max_length=32,
        choices=CHOICE_POLICY,
        default=REJECT,
        verbose_name=_("Policy non member users."),
    )
    non_member_vlan = models.ForeignKey(
        'machines.Vlan',
        related_name='non_member_vlan',
        on_delete=models.PROTECT,
        blank=True,
        null=True,
        verbose_name=_('Non member Vlan'),
        help_text=_(
            'Vlan for non members if not rejected.'
        )
    )
    banned = models.CharField(
        max_length=32,
        choices=CHOICE_POLICY,
        default=REJECT,
        verbose_name=_("Policy for banned users."),
    )
    banned_vlan = models.ForeignKey(
        'machines.Vlan',
        related_name='banned_vlan',
        on_delete=models.PROTECT,
        blank=True,
        null=True,
        verbose_name=_('Banned Vlan'),
        help_text=_(
            'Vlan for banned if not rejected.'
        )
    )
    vlan_decision_ok = models.OneToOneField(
        'machines.Vlan',
        on_delete=models.PROTECT,
        related_name='vlan_ok_option',
        blank=True,
        null=True
    )