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re2o/logs/models.py

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25 KiB
Python

# -*- mode: python; coding: utf-8 -*-
# Re2o est un logiciel d'administration développé initiallement au rezometz. Il
# se veut agnostique au réseau considéré, de manière à être installable en
# quelques clics.
#
# Copyright © 2020 Jean-Romain Garnier
#
# 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.
"""logs.models
The models definitions for the logs app
"""
from reversion.models import Version, Revision
from django.utils.translation import ugettext_lazy as _
from django.contrib.auth.models import Group
from django.db.models import Q
from django.apps import apps
from machines.models import IpList
from machines.models import Interface
from machines.models import Machine
from machines.models import MachineType
from users.models import User
from users.models import Adherent
from users.models import Club
from topologie.models import Room
from topologie.models import Port
from .forms import classes_for_action_type
class ActionsSearch:
def get(self, params):
"""
:param params: dict built by the search view
:return: QuerySet of Revision objects
"""
user = params.get("u", None)
start = params.get("s", None)
end = params.get("e", None)
action_types = params.get("t", None)
query = Q()
if user:
query &= Q(user__pseudo=user)
if start:
query &= Q(date_created__gte=start)
if end:
query &= Q(date_created__lte=end)
action_models = self.models_for_action_types(action_types)
if action_models:
query &= Q(version__content_type__model__in=action_models)
return (
Revision.objects.all()
.filter(query)
.select_related("user")
.prefetch_related("version_set__object")
)
def models_for_action_types(self, action_types):
if action_types is None:
return None
classes = []
for action_type in action_types:
c = classes_for_action_type(action_type)
# Selecting "all" removes the filter
if c is None:
return None
classes += c
return classes
class MachineHistorySearchEvent:
def __init__(self, user, machine, interface, start=None, end=None):
"""
:param user: User, The user owning the maching at the time of the event
:param machine: Version, the machine version related to the interface
:param interface: Version, the interface targeted by this event
:param start: datetime, the date at which this version was created
:param end: datetime, the date at which this version was replace by a new one
"""
self.user = user
self.machine = machine
self.interface = interface
self.ipv4 = IpList.objects.get(id=interface.field_dict["ipv4_id"]).ipv4
self.mac = self.interface.field_dict["mac_address"]
self.start_date = start
self.end_date = end
self.comment = interface.revision.get_comment() or None
def is_similar(self, elt2):
"""
Checks whether two events are similar enough to be merged
:return: bool
"""
return (
elt2 is not None
and self.user.id == elt2.user.id
and self.ipv4 == elt2.ipv4
and self.machine.field_dict["id"] == elt2.machine.field_dict["id"]
and self.interface.field_dict["id"] == elt2.interface.field_dict["id"]
)
def __repr__(self):
return "{} ({} - ): from {} to {} ({})".format(
self.machine,
self.mac,
self.ipv4,
self.start_date,
self.end_date,
self.comment or "No comment"
)
class MachineHistorySearch:
def __init__(self):
self.events = []
self._last_evt = None
def get(self, search, params):
"""
:param search: ip or mac to lookup
:param params: dict built by the search view
:return: list or None, a list of MachineHistorySearchEvent in reverse chronological order
"""
self.start = params.get("s", None)
self.end = params.get("e", None)
search_type = params.get("t", 0)
self.events = []
if search_type == "ip":
return self._get_by_ip(search)[::-1]
elif search_type == "mac":
return self._get_by_mac(search)[::-1]
return None
def _add_revision(self, user, machine, interface):
"""
Add a new revision to the chronological order
:param user: User, The user owning the maching at the time of the event
:param machine: Version, the machine version related to the interface
:param interface: Version, the interface targeted by this event
"""
evt = MachineHistorySearchEvent(user, machine, interface)
evt.start_date = interface.revision.date_created
# Try not to recreate events if it's unnecessary
if evt.is_similar(self._last_evt):
return
# Mark the end of validity of the last element
if self._last_evt and not self._last_evt.end_date:
self._last_evt.end_date = evt.start_date
# If the event ends before the given date, remove it
if self.start and evt.start_date.date() < self.start:
self._last_evt = None
self.events.pop()
# Make sure the new event starts before the given end date
if self.end and evt.start_date.date() > self.end:
return
# Save the new element
self.events.append(evt)
self._last_evt = evt
def _get_interfaces_for_ip(self, ip):
"""
:param ip: str
:return: An iterable object with the Version objects
of Interfaces with the given IP
"""
# TODO: What if ip list was deleted?
try:
ip_id = IpList.objects.get(ipv4=ip).id
except IpList.DoesNotExist:
return []
return filter(
lambda x: x.field_dict["ipv4_id"] == ip_id,
Version.objects.get_for_model(Interface).order_by("revision__date_created")
)
def _get_interfaces_for_mac(self, mac):
"""
:param mac: str
:return: An iterable object with the Version objects
of Interfaces with the given MAC address
"""
return filter(
lambda x: str(x.field_dict["mac_address"]) == mac,
Version.objects.get_for_model(Interface).order_by("revision__date_created")
)
def _get_machines_for_interface(self, interface):
"""
:param interface: Version, the interface for which to find the machines
:return: An iterable object with the Version objects of Machine to
which the given interface was attributed
"""
machine_id = interface.field_dict["machine_id"]
return filter(
lambda x: x.field_dict["id"] == machine_id,
Version.objects.get_for_model(Machine).order_by("revision__date_created")
)
def _get_user_for_machine(self, machine):
"""
:param machine: Version, the machine of which the owner must be found
:return: The user to which the given machine belongs
"""
# TODO: What if user was deleted?
user_id = machine.field_dict["user_id"]
return User.objects.get(id=user_id)
def _get_by_ip(self, ip):
"""
:param ip: str, The IP to lookup
:returns: list, a list of MachineHistorySearchEvent
"""
interfaces = self._get_interfaces_for_ip(ip)
for interface in interfaces:
machines = self._get_machines_for_interface(interface)
for machine in machines:
user = self._get_user_for_machine(machine)
self._add_revision(user, machine, interface)
return self.events
def _get_by_mac(self, mac):
"""
:param mac: str, The MAC address to lookup
:returns: list, a list of MachineHistorySearchEvent
"""
interfaces = self._get_interfaces_for_mac(mac)
for interface in interfaces:
machines = self._get_machines_for_interface(interface)
for machine in machines:
user = self._get_user_for_machine(machine)
self._add_revision(user, machine, interface)
return self.events
class RelatedHistory:
def __init__(self, name, model_name, object_id):
"""
:param name: Name of this instance
:param model_name: Name of the related model (e.g. "user")
:param object_id: ID of the related object
"""
self.name = "{} (id = {})".format(name, object_id)
self.model_name = model_name
self.object_id = object_id
def __eq__(self, other):
return (
self.model_name == other.model_name
and self.object_id == other.object_id
)
def __hash__(self):
return hash((self.model_name, self.object_id))
class HistoryEvent:
def __init__(self, version, previous_version=None, edited_fields=None):
"""
:param version: Version, the version of the object for this event
:param previous_version: Version, the version of the object before this event
:param edited_fields: list, The list of modified fields by this event
"""
self.version = version
self.previous_version = previous_version
self.edited_fields = edited_fields
self.date = version.revision.date_created
self.performed_by = version.revision.user
self.comment = version.revision.get_comment() or None
def _repr(self, name, value):
"""
Returns the best representation of the given field
:param name: the name of the field
:param value: the value of the field
:return: object
"""
if value is None:
return _("None")
return value
def edits(self, hide=[]):
"""
Build a list of the changes performed during this event
:param hide: list, the list of fields for which not to show details
:return: str
"""
edits = []
for field in self.edited_fields:
if field in hide:
# Don't show sensitive information
edits.append((field, None, None))
else:
edits.append((
field,
self._repr(field, self.previous_version.field_dict[field]),
self._repr(field, self.version.field_dict[field])
))
return edits
class History:
def __init__(self):
self.name = None
self.events = []
self.related = [] # For example, a machine has a list of its interfaces
self._last_version = None
self.event_type = HistoryEvent
def get(self, instance_id, model):
"""
:param instance_id: int, The id of the instance to lookup
:param model: class, The type of object to lookup
:return: list or None, a list of HistoryEvent, in reverse chronological order
"""
self.events = []
# Get all the versions for this instance, with the oldest first
self._last_version = None
interface_versions = filter(
lambda x: x.field_dict["id"] == instance_id,
Version.objects.get_for_model(model).order_by("revision__date_created")
)
for version in interface_versions:
self._add_revision(version)
# Return None if interface_versions was empty
if self._last_version is None:
return None
return self.events[::-1]
def _compute_diff(self, v1, v2, ignoring=[]):
"""
Find the edited field between two versions
:param v1: Version
:param v2: Version
:param ignoring: List, a list of fields to ignore
:return: List of field names
"""
fields = []
for key in v1.field_dict.keys():
if key not in ignoring and v1.field_dict[key] != v2.field_dict[key]:
fields.append(key)
return fields
def _add_revision(self, version):
"""
Add a new revision to the chronological order
:param version: Version, The version of the interface for this event
"""
diff = None
if self._last_version is not None:
diff = self._compute_diff(version, self._last_version)
# Ignore "empty" events
if not diff:
self._last_version = version
return
evt = self.event_type(version, self._last_version, diff)
self.events.append(evt)
self._last_version = version
class VersionAction(HistoryEvent):
def __init__(self, version):
self.version = version
def is_useful(self):
# Some versions are duplicates, and don't have a reference
# to any object, so ignore them
return self.version.object_id is not None
def name(self):
return "{} {}".format(self.model_name().title(), self.version.object_repr)
def application(self):
return self.version.content_type.app_label
def model_name(self):
return self.version.content_type.model
def object_id(self):
return self.version.object_id
def object_type(self):
return apps.get_model(self.application(), self.model_name())
def edits(self, hide=["password", "pwd_ntlm", "gpg_fingerprint"]):
self.previous_version = self._previous_version()
if self.previous_version is None:
return None, None, None
self.edited_fields = self._compute_diff(self.version, self.previous_version)
return super(VersionAction, self).edits(hide)
def _previous_version(self):
model = self.object_type()
try:
return next(
filter(
lambda x: x.field_dict["id"] == self.object_id() and x.revision.date_created < self.version.revision.date_created,
Version.objects.get_for_model(model).order_by("-revision__date_created")
)
)
except StopIteration:
return None
def _compute_diff(self, v1, v2, ignoring=["pwd_ntlm"]):
"""
Find the edited field between two versions
:param v1: Version
:param v2: Version
:param ignoring: List, a list of fields to ignore
:return: List of field names
"""
fields = []
for key in v1.field_dict.keys():
if key not in ignoring and v1.field_dict[key] != v2.field_dict[key]:
fields.append(key)
return fields
class RevisionAction:
"""A Revision may group multiple Version objects together"""
def __init__(self, revision):
self.performed_by = revision.user
self.revision = revision
self.versions = [VersionAction(v) for v in revision.version_set.all()]
self.versions = filter(lambda v: v.is_useful(), self.versions)
def id(self):
return self.revision.id
def date_created(self):
return self.revision.date_created
def comment(self):
return self.revision.get_comment()
class UserHistoryEvent(HistoryEvent):
def _repr(self, name, value):
"""
Returns the best representation of the given field
:param name: the name of the field
:param value: the value of the field
:return: object
"""
if name == "groups":
if len(value) == 0:
# Removed all the user's groups
return _("None")
# value is a list of ints
groups = []
for gid in value:
# Try to get the group name, if it's not deleted
try:
groups.append(Group.objects.get(id=gid).name)
except Group.DoesNotExist:
# TODO: Find the group name in the versions?
groups.append("{} ({})".format(_("Deleted"), gid))
return ", ".join(groups)
elif name == "state":
if value is not None:
return User.STATES[value][1]
else:
return _("Unknown")
elif name == "email_state":
if value is not None:
return User.EMAIL_STATES[value][1]
else:
return _("Unknown")
elif name == "room_id" and value is not None:
# Try to get the room name, if it's not deleted
try:
return Room.objects.get(id=value)
except Room.DoesNotExist:
# TODO: Find the room name in the versions?
return "{} ({})".format(_("Deleted"), value)
elif name == "members" or name == "administrators":
if len(value) == 0:
# Removed all the club's members
return _("None")
# value is a list of ints
users = []
for uid in value:
# Try to get the user's name, if theyr're not deleted
try:
users.append(User.objects.get(id=uid).pseudo)
except User.DoesNotExist:
# TODO: Find the user's name in the versions?
users.append("{} ({})".format(_("Deleted"), uid))
return ", ".join(users)
return super(UserHistoryEvent, self)._repr(name, value)
def edits(self, hide=["password", "pwd_ntlm", "gpg_fingerprint"]):
"""
Build a list of the changes performed during this event
:param hide: list, the list of fields for which not to show details
:return: str
"""
return super(UserHistoryEvent, self).edits(hide)
def __eq__(self, other):
return (
self.edited_fields == other.edited_fields
and self.date == other.date
and self.performed_by == other.performed_by
and self.comment == other.comment
)
def __hash__(self):
return hash((frozenset(self.edited_fields), self.date, self.performed_by, self.comment))
def __repr__(self):
return "{} edited fields {} ({})".format(
self.performed_by,
self.edited_fields or "nothing",
self.comment or "No comment"
)
class UserHistory(History):
def __init__(self):
super(UserHistory, self).__init__()
self.event_type = UserHistoryEvent
def get(self, user_id):
"""
:param user_id: int, the id of the user to lookup
:return: list or None, a list of UserHistoryEvent, in reverse chronological order
"""
self.events = []
# Try to find an Adherent object
adherents = filter(
lambda x: x.field_dict["user_ptr_id"] == user_id,
Version.objects.get_for_model(Adherent)
)
obj = next(adherents, None)
model = Adherent
# Fallback on a Club
if obj is None:
clubs = filter(
lambda x: x.field_dict["user_ptr_id"] == user_id,
Version.objects.get_for_model(Club)
)
obj = next(clubs, None)
model = Club
# If nothing was found, abort
if obj is None:
return None
# Add in "related" elements the list of Machine objects
# that were once owned by this user
self.related = filter(
lambda x: x.field_dict["user_id"] == user_id,
Version.objects.get_for_model(Machine).order_by("revision__date_created")
)
self.related = [RelatedHistory(
m.field_dict["name"] or _("None"),
"machine",
m.field_dict["id"]) for m in self.related]
self.related = list(dict.fromkeys(self.related))
# Get all the versions for this user, with the oldest first
self._last_version = None
user_versions = filter(
lambda x: x.field_dict["id"] == user_id,
Version.objects.get_for_model(User).order_by("revision__date_created")
)
for version in user_versions:
self._add_revision(version)
# Update name
self.name = self._last_version.field_dict["pseudo"]
# Do the same thing for the Adherent of Club
self._last_version = None
obj_versions = filter(
lambda x: x.field_dict["id"] == user_id,
Version.objects.get_for_model(model).order_by("revision__date_created")
)
for version in obj_versions:
self._add_revision(version)
# Remove duplicates and sort
self.events = list(dict.fromkeys(self.events))
return sorted(
self.events,
key=lambda e: e.date,
reverse=True
)
def _add_revision(self, version):
"""
Add a new revision to the chronological order
:param user: User, The user displayed in this history
:param version: Version, The version of the user for this event
"""
diff = None
if self._last_version is not None:
diff = self._compute_diff(
version,
self._last_version,
ignoring=["last_login", "pwd_ntlm", "email_change_date"]
)
# Ignore "empty" events like login
if not diff:
self._last_version = version
return
evt = UserHistoryEvent(version, self._last_version, diff)
self.events.append(evt)
self._last_version = version
class MachineHistoryEvent(HistoryEvent):
def _repr(self, name, value):
"""
Returns the best representation of the given field
:param name: the name of the field
:param value: the value of the field
:return: object
"""
if name == "user_id":
try:
return User.objects.get(id=value).pseudo
except User.DoesNotExist:
return "{} ({})".format(_("Deleted"), value)
return super(MachineHistoryEvent, self)._repr(name, value)
class MachineHistory(History):
def __init__(self):
super(MachineHistory, self).__init__()
self.event_type = MachineHistoryEvent
def get(self, machine_id):
# Add as "related" histories the list of Interface objects
# that were once assigned to this machine
self.related = list(filter(
lambda x: x.field_dict["machine_id"] == machine_id,
Version.objects.get_for_model(Interface).order_by("revision__date_created")
))
# Create RelatedHistory objects and remove duplicates
self.related = [RelatedHistory(
i.field_dict["mac_address"] or _("None"),
"interface",
i.field_dict["id"]) for i in self.related]
self.related = list(dict.fromkeys(self.related))
events = super(MachineHistory, self).get(machine_id, Machine)
# Update name
self.name = self._last_version.field_dict["name"]
return events
class InterfaceHistoryEvent(HistoryEvent):
def _repr(self, name, value):
"""
Returns the best representation of the given field
:param name: the name of the field
:param value: the value of the field
:return: object
"""
if name == "ipv4_id" and value is not None:
try:
return IpList.objects.get(id=value)
except IpList.DoesNotExist:
return "{} ({})".format(_("Deleted"), value)
elif name == "machine_type_id":
try:
return MachineType.objects.get(id=value).name
except MachineType.DoesNotExist:
return "{} ({})".format(_("Deleted"), value)
elif name == "machine_id":
try:
return Machine.objects.get(id=value).get_name() or _("No name")
except Machine.DoesNotExist:
return "{} ({})".format(_("Deleted"), value)
elif name == "port_lists":
if len(value) == 0:
return _("None")
ports = []
for pid in value:
try:
ports.append(Port.objects.get(id=pid).pretty_name())
except Group.DoesNotExist:
ports.append("{} ({})".format(_("Deleted"), pid))
return super(InterfaceHistoryEvent, self)._repr(name, value)
class InterfaceHistory(History):
def __init__(self):
super(InterfaceHistory, self).__init__()
self.event_type = InterfaceHistoryEvent
def get(self, interface_id):
events = super(InterfaceHistory, self).get(interface_id, Interface)
# Update name
self.name = self._last_version.field_dict["mac_address"]
return events