webapp/django/contrib/auth/models.py - gerrit-attic - Git at Google

 from django.contrib import auth
 from django.core import validators
 from django.core.exceptions import ImproperlyConfigured
 from django.db import models
 from django.db.models.manager import EmptyManager
 from django.contrib.contenttypes.models import ContentType
 from django.utils.encoding import smart_str
 from django.utils.translation import ugettext_lazy as _
 import datetime
 import urllib

 UNUSABLE_PASSWORD = '!' # This will never be a valid hash

 try:
     set
 except NameError:
     from sets import Set as set   # Python 2.3 fallback

 def get_hexdigest(algorithm, salt, raw_password):
     """
     Returns a string of the hexdigest of the given plaintext password and salt
     using the given algorithm ('md5', 'sha1' or 'crypt').
     """
     raw_password, salt = smart_str(raw_password), smart_str(salt)
     if algorithm == 'crypt':
         try:
             import crypt
         except ImportError:
             raise ValueError('"crypt" password algorithm not supported in this environment')
         return crypt.crypt(raw_password, salt)
     # The rest of the supported algorithms are supported by hashlib, but
     # hashlib is only available in Python 2.5.
     try:
         import hashlib
     except ImportError:
         if algorithm == 'md5':
             import md5
             return md5.new(salt + raw_password).hexdigest()
         elif algorithm == 'sha1':
             import sha
             return sha.new(salt + raw_password).hexdigest()
     else:
         if algorithm == 'md5':
             return hashlib.md5(salt + raw_password).hexdigest()
         elif algorithm == 'sha1':
             return hashlib.sha1(salt + raw_password).hexdigest()
     raise ValueError("Got unknown password algorithm type in password.")

 def check_password(raw_password, enc_password):
     """
     Returns a boolean of whether the raw_password was correct. Handles
     encryption formats behind the scenes.
     """
     algo, salt, hsh = enc_password.split('$')
     return hsh == get_hexdigest(algo, salt, raw_password)

 class SiteProfileNotAvailable(Exception):
     pass

 class Permission(models.Model):
     """The permissions system provides a way to assign permissions to specific users and groups of users.

     The permission system is used by the Django admin site, but may also be useful in your own code. The Django admin site uses permissions as follows:

         - The "add" permission limits the user's ability to view the "add" form and add an object.
         - The "change" permission limits a user's ability to view the change list, view the "change" form and change an object.
         - The "delete" permission limits the ability to delete an object.

     Permissions are set globally per type of object, not per specific object instance. It is possible to say "Mary may change news stories," but it's not currently possible to say "Mary may change news stories, but only the ones she created herself" or "Mary may only change news stories that have a certain status or publication date."

     Three basic permissions -- add, change and delete -- are automatically created for each Django model.
     """
     name = models.CharField(_('name'), max_length=50)
     content_type = models.ForeignKey(ContentType)
     codename = models.CharField(_('codename'), max_length=100)

     class Meta:
         verbose_name = _('permission')
         verbose_name_plural = _('permissions')
         unique_together = (('content_type', 'codename'),)
         ordering = ('content_type__app_label', 'codename')

     def __unicode__(self):
         return u"%s | %s | %s" % (
             unicode(self.content_type.app_label),
             unicode(self.content_type),
             unicode(self.name))

 class Group(models.Model):
     """Groups are a generic way of categorizing users to apply permissions, or some other label, to those users. A user can belong to any number of groups.

     A user in a group automatically has all the permissions granted to that group. For example, if the group Site editors has the permission can_edit_home_page, any user in that group will have that permission.

     Beyond permissions, groups are a convenient way to categorize users to apply some label, or extended functionality, to them. For example, you could create a group 'Special users', and you could write code that would do special things to those users -- such as giving them access to a members-only portion of your site, or sending them members-only e-mail messages.
     """
     name = models.CharField(_('name'), max_length=80, unique=True)
     permissions = models.ManyToManyField(Permission, verbose_name=_('permissions'), blank=True)

     class Meta:
         verbose_name = _('group')
         verbose_name_plural = _('groups')

     def __unicode__(self):
         return self.name

 class UserManager(models.Manager):
     def create_user(self, username, email, password=None):
         "Creates and saves a User with the given username, e-mail and password."
         now = datetime.datetime.now()
         user = self.model(None, username, '', '', email.strip().lower(), 'placeholder', False, True, False, now, now)
         if password:
             user.set_password(password)
         else:
             user.set_unusable_password()
         user.save()
         return user

     def create_superuser(self, username, email, password):
         u = self.create_user(username, email, password)
         u.is_staff = True
         u.is_active = True
         u.is_superuser = True
         u.save()

     def make_random_password(self, length=10, allowed_chars='abcdefghjkmnpqrstuvwxyzABCDEFGHJKLMNPQRSTUVWXYZ23456789'):
         "Generates a random password with the given length and given allowed_chars"
         # Note that default value of allowed_chars does not have "I" or letters
         # that look like it -- just to avoid confusion.
         from random import choice
         return ''.join([choice(allowed_chars) for i in range(length)])

 class User(models.Model):
     """Users within the Django authentication system are represented by this model.

     Username and password are required. Other fields are optional.
     """
     username = models.CharField(_('username'), max_length=30, unique=True, help_text=_("Required. 30 characters or fewer. Alphanumeric characters only (letters, digits and underscores)."))
     first_name = models.CharField(_('first name'), max_length=30, blank=True)
     last_name = models.CharField(_('last name'), max_length=30, blank=True)
     email = models.EmailField(_('e-mail address'), blank=True)
     password = models.CharField(_('password'), max_length=128, help_text=_("Use '[algo]$[salt]$[hexdigest]' or use the <a href=\"password/\">change password form</a>."))
     is_staff = models.BooleanField(_('staff status'), default=False, help_text=_("Designates whether the user can log into this admin site."))
     is_active = models.BooleanField(_('active'), default=True, help_text=_("Designates whether this user should be treated as active. Unselect this instead of deleting accounts."))
     is_superuser = models.BooleanField(_('superuser status'), default=False, help_text=_("Designates that this user has all permissions without explicitly assigning them."))
     last_login = models.DateTimeField(_('last login'), default=datetime.datetime.now)
     date_joined = models.DateTimeField(_('date joined'), default=datetime.datetime.now)
     groups = models.ManyToManyField(Group, verbose_name=_('groups'), blank=True,
         help_text=_("In addition to the permissions manually assigned, this user will also get all permissions granted to each group he/she is in."))
     user_permissions = models.ManyToManyField(Permission, verbose_name=_('user permissions'), blank=True)
     objects = UserManager()

     class Meta:
         verbose_name = _('user')
         verbose_name_plural = _('users')

     def __unicode__(self):
         return self.username

     def get_absolute_url(self):
         return "/users/%s/" % urllib.quote(smart_str(self.username))

     def is_anonymous(self):
         "Always returns False. This is a way of comparing User objects to anonymous users."
         return False

     def is_authenticated(self):
         """Always return True. This is a way to tell if the user has been authenticated in templates.
         """
         return True

     def get_full_name(self):
         "Returns the first_name plus the last_name, with a space in between."
         full_name = u'%s %s' % (self.first_name, self.last_name)
         return full_name.strip()

     def set_password(self, raw_password):
         import random
         algo = 'sha1'
         salt = get_hexdigest(algo, str(random.random()), str(random.random()))[:5]
         hsh = get_hexdigest(algo, salt, raw_password)
         self.password = '%s$%s$%s' % (algo, salt, hsh)

     def check_password(self, raw_password):
         """
         Returns a boolean of whether the raw_password was correct. Handles
         encryption formats behind the scenes.
         """
         # Backwards-compatibility check. Older passwords won't include the
         # algorithm or salt.
         if '$' not in self.password:
             is_correct = (self.password == get_hexdigest('md5', '', raw_password))
             if is_correct:
                 # Convert the password to the new, more secure format.
                 self.set_password(raw_password)
                 self.save()
             return is_correct
         return check_password(raw_password, self.password)

     def set_unusable_password(self):
         # Sets a value that will never be a valid hash
         self.password = UNUSABLE_PASSWORD

     def has_usable_password(self):
         return self.password != UNUSABLE_PASSWORD

     def get_group_permissions(self):
         """
         Returns a list of permission strings that this user has through
         his/her groups. This method queries all available auth backends.
         """
         permissions = set()
         for backend in auth.get_backends():
             if hasattr(backend, "get_group_permissions"):
                 permissions.update(backend.get_group_permissions(self))
         return permissions

     def get_all_permissions(self):
         permissions = set()
         for backend in auth.get_backends():
             if hasattr(backend, "get_all_permissions"):
                 permissions.update(backend.get_all_permissions(self))
         return permissions

     def has_perm(self, perm):
         """
         Returns True if the user has the specified permission. This method
         queries all available auth backends, but returns immediately if any
         backend returns True. Thus, a user who has permission from a single
         auth backend is assumed to have permission in general.
         """
         # Inactive users have no permissions.
         if not self.is_active:
             return False

         # Superusers have all permissions.
         if self.is_superuser:
             return True

         # Otherwise we need to check the backends.
         for backend in auth.get_backends():
             if hasattr(backend, "has_perm"):
                 if backend.has_perm(self, perm):
                     return True
         return False

     def has_perms(self, perm_list):
         """Returns True if the user has each of the specified permissions."""
         for perm in perm_list:
             if not self.has_perm(perm):
                 return False
         return True

     def has_module_perms(self, app_label):
         """
         Returns True if the user has any permissions in the given app
         label. Uses pretty much the same logic as has_perm, above.
         """
         if not self.is_active:
             return False

         if self.is_superuser:
             return True

         for backend in auth.get_backends():
             if hasattr(backend, "has_module_perms"):
                 if backend.has_module_perms(self, app_label):
                     return True
         return False

     def get_and_delete_messages(self):
         messages = []
         for m in self.message_set.all():
             messages.append(m.message)
             m.delete()
         return messages

     def email_user(self, subject, message, from_email=None):
         "Sends an e-mail to this User."
         from django.core.mail import send_mail
         send_mail(subject, message, from_email, [self.email])

     def get_profile(self):
         """
         Returns site-specific profile for this user. Raises
         SiteProfileNotAvailable if this site does not allow profiles.
         """
         if not hasattr(self, '_profile_cache'):
             from django.conf import settings
             if not settings.AUTH_PROFILE_MODULE:
                 raise SiteProfileNotAvailable
             try:
                 app_label, model_name = settings.AUTH_PROFILE_MODULE.split('.')
                 model = models.get_model(app_label, model_name)
                 self._profile_cache = model._default_manager.get(user__id__exact=self.id)
             except (ImportError, ImproperlyConfigured):
                 raise SiteProfileNotAvailable
         return self._profile_cache

 class Message(models.Model):
     """
     The message system is a lightweight way to queue messages for given
     users. A message is associated with a User instance (so it is only
     applicable for registered users). There's no concept of expiration or
     timestamps. Messages are created by the Django admin after successful
     actions. For example, "The poll Foo was created successfully." is a
     message.
     """
     user = models.ForeignKey(User)
     message = models.TextField(_('message'))

     def __unicode__(self):
         return self.message

 class AnonymousUser(object):
     id = None
     username = ''
     is_staff = False
     is_active = False
     is_superuser = False
     _groups = EmptyManager()
     _user_permissions = EmptyManager()

     def __init__(self):
         pass

     def __unicode__(self):
         return 'AnonymousUser'

     def __str__(self):
         return unicode(self).encode('utf-8')

     def __eq__(self, other):
         return isinstance(other, self.__class__)

     def __ne__(self, other):
         return not self.__eq__(other)

     def __hash__(self):
         return 1 # instances always return the same hash value

     def save(self):
         raise NotImplementedError

     def delete(self):
         raise NotImplementedError

     def set_password(self, raw_password):
         raise NotImplementedError

     def check_password(self, raw_password):
         raise NotImplementedError

     def _get_groups(self):
         return self._groups
     groups = property(_get_groups)

     def _get_user_permissions(self):
         return self._user_permissions
     user_permissions = property(_get_user_permissions)

     def has_perm(self, perm):
         return False

     def has_perms(self, perm_list):
         return False

     def has_module_perms(self, module):
         return False

     def get_and_delete_messages(self):
         return []

     def is_anonymous(self):
         return True

     def is_authenticated(self):
         return False
	from django.contrib import auth
	from django.core import validators
	from django.core.exceptions import ImproperlyConfigured
	from django.db import models
	from django.db.models.manager import EmptyManager
	from django.contrib.contenttypes.models import ContentType
	from django.utils.encoding import smart_str
	from django.utils.translation import ugettext_lazy as _
	import datetime
	import urllib

	UNUSABLE_PASSWORD = '!' # This will never be a valid hash

	try:
	set
	except NameError:
	from sets import Set as set # Python 2.3 fallback

	def get_hexdigest(algorithm, salt, raw_password):
	"""
	Returns a string of the hexdigest of the given plaintext password and salt
	using the given algorithm ('md5', 'sha1' or 'crypt').
	"""
	raw_password, salt = smart_str(raw_password), smart_str(salt)
	if algorithm == 'crypt':
	try:
	import crypt
	except ImportError:
	raise ValueError('"crypt" password algorithm not supported in this environment')
	return crypt.crypt(raw_password, salt)
	# The rest of the supported algorithms are supported by hashlib, but
	# hashlib is only available in Python 2.5.
	try:
	import hashlib
	except ImportError:
	if algorithm == 'md5':
	import md5
	return md5.new(salt + raw_password).hexdigest()
	elif algorithm == 'sha1':
	import sha
	return sha.new(salt + raw_password).hexdigest()
	else:
	if algorithm == 'md5':
	return hashlib.md5(salt + raw_password).hexdigest()
	elif algorithm == 'sha1':
	return hashlib.sha1(salt + raw_password).hexdigest()
	raise ValueError("Got unknown password algorithm type in password.")

	def check_password(raw_password, enc_password):
	"""
	Returns a boolean of whether the raw_password was correct. Handles
	encryption formats behind the scenes.
	"""
	algo, salt, hsh = enc_password.split('$')
	return hsh == get_hexdigest(algo, salt, raw_password)

	class SiteProfileNotAvailable(Exception):
	pass

	class Permission(models.Model):
	"""The permissions system provides a way to assign permissions to specific users and groups of users.

	The permission system is used by the Django admin site, but may also be useful in your own code. The Django admin site uses permissions as follows:

	- The "add" permission limits the user's ability to view the "add" form and add an object.
	- The "change" permission limits a user's ability to view the change list, view the "change" form and change an object.
	- The "delete" permission limits the ability to delete an object.

	Permissions are set globally per type of object, not per specific object instance. It is possible to say "Mary may change news stories," but it's not currently possible to say "Mary may change news stories, but only the ones she created herself" or "Mary may only change news stories that have a certain status or publication date."

	Three basic permissions -- add, change and delete -- are automatically created for each Django model.
	"""
	name = models.CharField(_('name'), max_length=50)
	content_type = models.ForeignKey(ContentType)
	codename = models.CharField(_('codename'), max_length=100)

	class Meta:
	verbose_name = _('permission')
	verbose_name_plural = _('permissions')
	unique_together = (('content_type', 'codename'),)
	ordering = ('content_type__app_label', 'codename')

	def __unicode__(self):
	return u"%s \| %s \| %s" % (
	unicode(self.content_type.app_label),
	unicode(self.content_type),
	unicode(self.name))

	class Group(models.Model):
	"""Groups are a generic way of categorizing users to apply permissions, or some other label, to those users. A user can belong to any number of groups.

	A user in a group automatically has all the permissions granted to that group. For example, if the group Site editors has the permission can_edit_home_page, any user in that group will have that permission.

	Beyond permissions, groups are a convenient way to categorize users to apply some label, or extended functionality, to them. For example, you could create a group 'Special users', and you could write code that would do special things to those users -- such as giving them access to a members-only portion of your site, or sending them members-only e-mail messages.
	"""
	name = models.CharField(_('name'), max_length=80, unique=True)
	permissions = models.ManyToManyField(Permission, verbose_name=_('permissions'), blank=True)

	class Meta:
	verbose_name = _('group')
	verbose_name_plural = _('groups')

	def __unicode__(self):
	return self.name

	class UserManager(models.Manager):
	def create_user(self, username, email, password=None):
	"Creates and saves a User with the given username, e-mail and password."
	now = datetime.datetime.now()
	user = self.model(None, username, '', '', email.strip().lower(), 'placeholder', False, True, False, now, now)
	if password:
	user.set_password(password)
	else:
	user.set_unusable_password()
	user.save()
	return user

	def create_superuser(self, username, email, password):
	u = self.create_user(username, email, password)
	u.is_staff = True
	u.is_active = True
	u.is_superuser = True
	u.save()

	def make_random_password(self, length=10, allowed_chars='abcdefghjkmnpqrstuvwxyzABCDEFGHJKLMNPQRSTUVWXYZ23456789'):
	"Generates a random password with the given length and given allowed_chars"
	# Note that default value of allowed_chars does not have "I" or letters
	# that look like it -- just to avoid confusion.
	from random import choice
	return ''.join([choice(allowed_chars) for i in range(length)])

	class User(models.Model):
	"""Users within the Django authentication system are represented by this model.

	Username and password are required. Other fields are optional.
	"""
	username = models.CharField(_('username'), max_length=30, unique=True, help_text=_("Required. 30 characters or fewer. Alphanumeric characters only (letters, digits and underscores)."))
	first_name = models.CharField(_('first name'), max_length=30, blank=True)
	last_name = models.CharField(_('last name'), max_length=30, blank=True)
	email = models.EmailField(_('e-mail address'), blank=True)
	password = models.CharField(_('password'), max_length=128, help_text=_("Use '[algo]$[salt]$[hexdigest]' or use the <a href=\"password/\">change password form</a>."))
	is_staff = models.BooleanField(_('staff status'), default=False, help_text=_("Designates whether the user can log into this admin site."))
	is_active = models.BooleanField(_('active'), default=True, help_text=_("Designates whether this user should be treated as active. Unselect this instead of deleting accounts."))
	is_superuser = models.BooleanField(_('superuser status'), default=False, help_text=_("Designates that this user has all permissions without explicitly assigning them."))
	last_login = models.DateTimeField(_('last login'), default=datetime.datetime.now)
	date_joined = models.DateTimeField(_('date joined'), default=datetime.datetime.now)
	groups = models.ManyToManyField(Group, verbose_name=_('groups'), blank=True,
	help_text=_("In addition to the permissions manually assigned, this user will also get all permissions granted to each group he/she is in."))
	user_permissions = models.ManyToManyField(Permission, verbose_name=_('user permissions'), blank=True)
	objects = UserManager()

	class Meta:
	verbose_name = _('user')
	verbose_name_plural = _('users')

	def __unicode__(self):
	return self.username

	def get_absolute_url(self):
	return "/users/%s/" % urllib.quote(smart_str(self.username))

	def is_anonymous(self):
	"Always returns False. This is a way of comparing User objects to anonymous users."
	return False

	def is_authenticated(self):
	"""Always return True. This is a way to tell if the user has been authenticated in templates.
	"""
	return True

	def get_full_name(self):
	"Returns the first_name plus the last_name, with a space in between."
	full_name = u'%s %s' % (self.first_name, self.last_name)
	return full_name.strip()

	def set_password(self, raw_password):
	import random
	algo = 'sha1'
	salt = get_hexdigest(algo, str(random.random()), str(random.random()))[:5]
	hsh = get_hexdigest(algo, salt, raw_password)
	self.password = '%s$%s$%s' % (algo, salt, hsh)

	def check_password(self, raw_password):
	"""
	Returns a boolean of whether the raw_password was correct. Handles
	encryption formats behind the scenes.
	"""
	# Backwards-compatibility check. Older passwords won't include the
	# algorithm or salt.
	if '$' not in self.password:
	is_correct = (self.password == get_hexdigest('md5', '', raw_password))
	if is_correct:
	# Convert the password to the new, more secure format.
	self.set_password(raw_password)
	self.save()
	return is_correct
	return check_password(raw_password, self.password)

	def set_unusable_password(self):
	# Sets a value that will never be a valid hash
	self.password = UNUSABLE_PASSWORD

	def has_usable_password(self):
	return self.password != UNUSABLE_PASSWORD

	def get_group_permissions(self):
	"""
	Returns a list of permission strings that this user has through
	his/her groups. This method queries all available auth backends.
	"""
	permissions = set()
	for backend in auth.get_backends():
	if hasattr(backend, "get_group_permissions"):
	permissions.update(backend.get_group_permissions(self))
	return permissions

	def get_all_permissions(self):
	permissions = set()
	for backend in auth.get_backends():
	if hasattr(backend, "get_all_permissions"):
	permissions.update(backend.get_all_permissions(self))
	return permissions

	def has_perm(self, perm):
	"""
	Returns True if the user has the specified permission. This method
	queries all available auth backends, but returns immediately if any
	backend returns True. Thus, a user who has permission from a single
	auth backend is assumed to have permission in general.
	"""
	# Inactive users have no permissions.
	if not self.is_active:
	return False

	# Superusers have all permissions.
	if self.is_superuser:
	return True

	# Otherwise we need to check the backends.
	for backend in auth.get_backends():
	if hasattr(backend, "has_perm"):
	if backend.has_perm(self, perm):
	return True
	return False

	def has_perms(self, perm_list):
	"""Returns True if the user has each of the specified permissions."""
	for perm in perm_list:
	if not self.has_perm(perm):
	return False
	return True

	def has_module_perms(self, app_label):
	"""
	Returns True if the user has any permissions in the given app
	label. Uses pretty much the same logic as has_perm, above.
	"""
	if not self.is_active:
	return False

	if self.is_superuser:
	return True

	for backend in auth.get_backends():
	if hasattr(backend, "has_module_perms"):
	if backend.has_module_perms(self, app_label):
	return True
	return False

	def get_and_delete_messages(self):
	messages = []
	for m in self.message_set.all():
	messages.append(m.message)
	m.delete()
	return messages

	def email_user(self, subject, message, from_email=None):
	"Sends an e-mail to this User."
	from django.core.mail import send_mail
	send_mail(subject, message, from_email, [self.email])

	def get_profile(self):
	"""
	Returns site-specific profile for this user. Raises
	SiteProfileNotAvailable if this site does not allow profiles.
	"""
	if not hasattr(self, '_profile_cache'):
	from django.conf import settings
	if not settings.AUTH_PROFILE_MODULE:
	raise SiteProfileNotAvailable
	try:
	app_label, model_name = settings.AUTH_PROFILE_MODULE.split('.')
	model = models.get_model(app_label, model_name)
	self._profile_cache = model._default_manager.get(user__id__exact=self.id)
	except (ImportError, ImproperlyConfigured):
	raise SiteProfileNotAvailable
	return self._profile_cache

	class Message(models.Model):
	"""
	The message system is a lightweight way to queue messages for given
	users. A message is associated with a User instance (so it is only
	applicable for registered users). There's no concept of expiration or
	timestamps. Messages are created by the Django admin after successful
	actions. For example, "The poll Foo was created successfully." is a
	message.
	"""
	user = models.ForeignKey(User)
	message = models.TextField(_('message'))

	def __unicode__(self):
	return self.message

	class AnonymousUser(object):
	id = None
	username = ''
	is_staff = False
	is_active = False
	is_superuser = False
	_groups = EmptyManager()
	_user_permissions = EmptyManager()

	def __init__(self):
	pass

	def __unicode__(self):
	return 'AnonymousUser'

	def __str__(self):
	return unicode(self).encode('utf-8')

	def __eq__(self, other):
	return isinstance(other, self.__class__)

	def __ne__(self, other):
	return not self.__eq__(other)

	def __hash__(self):
	return 1 # instances always return the same hash value

	def save(self):
	raise NotImplementedError

	def delete(self):
	raise NotImplementedError

	def set_password(self, raw_password):
	raise NotImplementedError

	def check_password(self, raw_password):
	raise NotImplementedError

	def _get_groups(self):
	return self._groups
	groups = property(_get_groups)

	def _get_user_permissions(self):
	return self._user_permissions
	user_permissions = property(_get_user_permissions)

	def has_perm(self, perm):
	return False

	def has_perms(self, perm_list):
	return False

	def has_module_perms(self, module):
	return False

	def get_and_delete_messages(self):
	return []

	def is_anonymous(self):
	return True

	def is_authenticated(self):
	return False