django1/django/contrib/auth/management/__init__.py

142 lines
4.5 KiB
Python

"""
Creates permissions for all installed apps that need permissions.
"""
import getpass
import unicodedata
from django.apps import apps as global_apps
from django.contrib.auth import get_permission_codename
from django.core import exceptions
from django.db import DEFAULT_DB_ALIAS, router
def _get_all_permissions(opts):
"""
Return (codename, name) for all permissions in the given opts.
"""
builtin = _get_builtin_permissions(opts)
custom = list(opts.permissions)
return builtin + custom
def _get_builtin_permissions(opts):
"""
Return (codename, name) for all autogenerated permissions.
By default, this is ('add', 'change', 'delete')
"""
perms = []
for action in opts.default_permissions:
perms.append((
get_permission_codename(action, opts),
'Can %s %s' % (action, opts.verbose_name_raw)
))
return perms
def create_permissions(app_config, verbosity=2, interactive=True, using=DEFAULT_DB_ALIAS, apps=global_apps, **kwargs):
if not app_config.models_module:
return
app_label = app_config.label
try:
app_config = apps.get_app_config(app_label)
ContentType = apps.get_model('contenttypes', 'ContentType')
Permission = apps.get_model('auth', 'Permission')
except LookupError:
return
if not router.allow_migrate_model(using, Permission):
return
# This will hold the permissions we're looking for as
# (content_type, (codename, name))
searched_perms = []
# The codenames and ctypes that should exist.
ctypes = set()
for klass in app_config.get_models():
# Force looking up the content types in the current database
# before creating foreign keys to them.
ctype = ContentType.objects.db_manager(using).get_for_model(klass)
ctypes.add(ctype)
for perm in _get_all_permissions(klass._meta):
searched_perms.append((ctype, perm))
# Find all the Permissions that have a content_type for a model we're
# looking for. We don't need to check for codenames since we already have
# a list of the ones we're going to create.
all_perms = set(Permission.objects.using(using).filter(
content_type__in=ctypes,
).values_list(
"content_type", "codename"
))
perms = [
Permission(codename=codename, name=name, content_type=ct)
for ct, (codename, name) in searched_perms
if (ct.pk, codename) not in all_perms
]
Permission.objects.using(using).bulk_create(perms)
if verbosity >= 2:
for perm in perms:
print("Adding permission '%s'" % perm)
def get_system_username():
"""
Return the current system user's username, or an empty string if the
username could not be determined.
"""
try:
result = getpass.getuser()
except (ImportError, KeyError):
# KeyError will be raised by os.getpwuid() (called by getuser())
# if there is no corresponding entry in the /etc/passwd file
# (a very restricted chroot environment, for example).
return ''
return result
def get_default_username(check_db=True):
"""
Try to determine the current system user's username to use as a default.
:param check_db: If ``True``, requires that the username does not match an
existing ``auth.User`` (otherwise returns an empty string).
:returns: The username, or an empty string if no username can be
determined.
"""
# This file is used in apps.py, it should not trigger models import.
from django.contrib.auth import models as auth_app
# If the User model has been swapped out, we can't make any assumptions
# about the default user name.
if auth_app.User._meta.swapped:
return ''
default_username = get_system_username()
try:
default_username = (
unicodedata.normalize('NFKD', default_username)
.encode('ascii', 'ignore').decode('ascii')
.replace(' ', '').lower()
)
except UnicodeDecodeError:
return ''
# Run the username validator
try:
auth_app.User._meta.get_field('username').run_validators(default_username)
except exceptions.ValidationError:
return ''
# Don't return the default username if it is already taken.
if check_db and default_username:
try:
auth_app.User._default_manager.get(username=default_username)
except auth_app.User.DoesNotExist:
pass
else:
return ''
return default_username