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re2o/search/views.py
Gabriel Detraz 5b4176692a Fix search
2018-03-27 04:25:09 +02:00

438 lines
13 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 © 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.
"""The views for the search app, responsible for finding the matches
Augustin lemesle, Gabriel Détraz, Goulven Kermarec, Maël Kervella
Gplv2"""
from __future__ import unicode_literals
from django.shortcuts import render
from django.contrib.auth.decorators import login_required
from django.db.models import Q
from users.models import User, Adherent, Club, Ban, Whitelist
from machines.models import Machine
from topologie.models import Port, Switch, Room
from cotisations.models import Facture
from preferences.models import GeneralOption
from search.forms import (
SearchForm,
SearchFormPlus,
CHOICES_USER,
CHOICES_AFF,
initial_choices
)
from re2o.utils import SortTable
def is_int(variable):
""" Check if the variable can be casted to an integer """
try:
int(variable)
except ValueError:
return False
else:
return True
def finish_results(results, col, order):
"""Sort the results by applying filters and then limit them to the
number of max results. Finally add the info of the nmax number of results
to the dict"""
results['users'] = SortTable.sort(
results['users'],
col,
order,
SortTable.USERS_INDEX
)
results['machines'] = SortTable.sort(
results['machines'],
col,
order,
SortTable.MACHINES_INDEX
)
results['factures'] = SortTable.sort(
results['factures'],
col,
order,
SortTable.COTISATIONS_INDEX
)
results['bans'] = SortTable.sort(
results['bans'],
col,
order,
SortTable.USERS_INDEX_BAN
)
results['whitelists'] = SortTable.sort(
results['whitelists'],
col,
order,
SortTable.USERS_INDEX_WHITE
)
results['rooms'] = SortTable.sort(
results['rooms'],
col,
order,
SortTable.TOPOLOGIE_INDEX_ROOM
)
results['ports'] = SortTable.sort(
results['ports'],
col,
order,
SortTable.TOPOLOGIE_INDEX_PORT
)
results['switches'] = SortTable.sort(
results['switches'],
col,
order,
SortTable.TOPOLOGIE_INDEX
)
max_result = GeneralOption.get_cached_value('search_display_page')
for name, val in results.items():
results[name] = val.distinct()[:max_result]
results.update({'max_result': max_result})
return results
def search_single_word(word, filters, user,
start, end, user_state, aff):
""" Construct the correct filters to match differents fields of some models
with the given query according to the given filters.
The match field are either CharField or IntegerField that will be displayed
on the results page (else, one might not see why a result has matched the
query). IntegerField are matched against the query only if it can be casted
to an int."""
# Users
if '0' in aff:
filter_users = (
Q(
surname__icontains=word
) | Q(
pseudo__icontains=word
) | Q(
room__name__icontains=word
) | Q(
room__name__icontains=word
)
) & Q(state__in=user_state)
if not User.can_view_all(user)[0]:
filter_users &= Q(id=user.id)
filter_clubs = filter_users
filter_users |= Q(name__icontains=word)
filters['users'] |= filter_users
filters['clubs'] |= filter_clubs
# Machines
if '1' in aff:
filter_machines = Q(
name__icontains=word
) | (
Q(
user__pseudo__icontains=word
) & Q(
user__state__in=user_state
)
) | Q(
interface__domain__name__icontains=word
) | Q(
interface__domain__related_domain__name__icontains=word
) | Q(
interface__mac_address__icontains=word
) | Q(
interface__ipv4__ipv4__icontains=word
)
if not Machine.can_view_all(user)[0]:
filter_machines &= Q(user__id=user.id)
filters['machines'] |= filter_machines
# Factures
if '2' in aff:
filter_factures = Q(
user__pseudo__icontains=word
) & Q(
user__state__in=user_state
)
if start is not None:
filter_factures &= Q(date__gte=start)
if end is not None:
filter_factures &= Q(date__lte=end)
filters['factures'] |= filter_factures
# Bans
if '3' in aff:
filter_bans = (
Q(
user__pseudo__icontains=word
) & Q(
user__state__in=user_state
)
) | Q(
raison__icontains=word
)
if start is not None:
filter_bans &= (
Q(date_start__gte=start) & Q(date_end__gte=start)
) | (
Q(date_start__lte=start) & Q(date_end__gte=start)
) | (
Q(date_start__gte=start) & Q(date_end__lte=start)
)
if end is not None:
filter_bans &= (
Q(date_start__lte=end) & Q(date_end__lte=end)
) | (
Q(date_start__lte=end) & Q(date_end__gte=end)
) | (
Q(date_start__gte=end) & Q(date_end__lte=end)
)
filters['bans'] |= filter_bans
# Whitelists
if '4' in aff:
filter_whitelists = (
Q(
user__pseudo__icontains=word
) & Q(
user__state__in=user_state
)
) | Q(
raison__icontains=word
)
if start is not None:
filter_whitelists &= (
Q(date_start__gte=start) & Q(date_end__gte=start)
) | (
Q(date_start__lte=start) & Q(date_end__gte=start)
) | (
Q(date_start__gte=start) & Q(date_end__lte=start)
)
if end is not None:
filter_whitelists &= (
Q(date_start__lte=end) & Q(date_end__lte=end)
) | (
Q(date_start__lte=end) & Q(date_end__gte=end)
) | (
Q(date_start__gte=end) & Q(date_end__lte=end)
)
filters['whitelists'] |= filter_whitelists
# Rooms
if '5' in aff and Room.can_view_all(user):
filter_rooms = Q(
details__icontains=word
) | Q(
name__icontains=word
) | Q(
port__details=word
)
filters['rooms'] |= filter_rooms
# Switch ports
if '6' in aff and User.can_view_all(user):
filter_ports = Q(
room__name__icontains=word
) | Q(
machine_interface__domain__name__icontains=word
) | Q(
related__switch__interface__domain__name__icontains=word
) | Q(
radius__icontains=word
) | Q(
vlan_force__name__icontains=word
) | Q(
details__icontains=word
)
if is_int(word):
filter_ports |= Q(
port=word
)
filters['ports'] |= filter_ports
# Switches
if '7' in aff and Switch.can_view_all(user):
filter_switches = Q(
interface__domain__name__icontains=word
) | Q(
interface__ipv4__ipv4__icontains=word
) | Q(
location__icontains=word
) | Q(
stack__name__icontains=word
) | Q(
model__reference__icontains=word
) | Q(
model__constructor__name__icontains=word
) | Q(
interface__details__icontains=word
)
if is_int(word):
filter_switches |= Q(
number=word
) | Q(
stack_member_id=word
)
filters['switches'] |= filter_switches
return filters
def get_words(query):
"""Function used to split the uery in different words to look for.
The rules are simple :
- anti-slash ('\\') is used to escape characters
- anything between quotation marks ('"') is kept intact (not
interpreted as separators) excepts anti-slashes used to escape
- spaces (' ') and commas (',') are used to separated words
"""
words = []
i = 0
keep_intact = False
escaping_char = False
for char in query:
if i >= len(words):
# We are starting a new word
words.append('')
if escaping_char:
# The last char war a \ so we escape this char
escaping_char = False
words[i] += char
continue
if char == '\\':
# We need to escape the next char
escaping_char = True
continue
if char == '"':
# Toogle the keep_intact state, if true, we are between two "
keep_intact = not keep_intact
continue
if keep_intact:
# If we are between two ", ignore separators
words[i] += char
continue
if char == ' ' or char == ',':
# If we encouter a separator outside of ", we create a new word
if words[i] is not '':
i += 1
continue
# If we haven't encountered any special case, add the char to the word
words[i] += char
return words
def get_results(query, request, params):
"""The main function of the search procedure. It gather the filters for
each of the different words of the query and concatenate them into a
single filter. Then it calls 'finish_results' and return the queryset of
objects to display as results"""
start = params.get('s', None)
end = params.get('e', None)
user_state = params.get('u', initial_choices(CHOICES_USER))
aff = params.get('a', initial_choices(CHOICES_AFF))
filters = {
'users': Q(),
'clubs': Q(),
'machines': Q(),
'factures': Q(),
'bans': Q(),
'whitelists': Q(),
'rooms': Q(),
'ports': Q(),
'switches': Q()
}
words = get_words(query)
for word in words:
filters = search_single_word(
word,
filters,
request.user,
start,
end,
user_state,
aff
)
results = {
'users': Adherent.objects.filter(filters['users']),
'clubs': Club.objects.filter(filters['clubs']),
'machines': Machine.objects.filter(filters['machines']),
'factures': Facture.objects.filter(filters['factures']),
'bans': Ban.objects.filter(filters['bans']),
'whitelists': Whitelist.objects.filter(filters['whitelists']),
'rooms': Room.objects.filter(filters['rooms']),
'ports': Port.objects.filter(filters['ports']),
'switches': Switch.objects.filter(filters['switches'])
}
results = finish_results(
results,
request.GET.get('col'),
request.GET.get('order')
)
results.update({'search_term': query})
return results
@login_required
def search(request):
""" La page de recherche standard """
search_form = SearchForm(request.GET or None)
if search_form.is_valid():
return render(
request,
'search/index.html',
get_results(
search_form.cleaned_data.get('q', ''),
request,
search_form.cleaned_data
)
)
return render(request, 'search/search.html', {'search_form': search_form})
@login_required
def searchp(request):
""" La page de recherche avancée """
search_form = SearchFormPlus(request.GET or None)
if search_form.is_valid():
return render(
request,
'search/index.html',
get_results(
search_form.cleaned_data.get('q', ''),
request,
search_form.cleaned_data
)
)
return render(request, 'search/search.html', {'search_form': search_form})