Authentication and authorization
Strong authentication and authorization methods are vital for a modern, multiuser web application. While they are often used interchangeably, authentication and authorization are separate processes:
Authentication confirms that users are who they say they are
Authorization gives those users permission to access a resource
Authentication using Auth
py4web comes with a an object Auth
and a system of plugins for user
authentication. It has the same name as the
corresponding web2py one and serves the same purpose but the API and
internal design is very different.
The _scaffold application provides a guideline for its standard usage. By default it uses a local SQLite database and allows creating new users, login and logout. Notice that if you don’t configure it, you have to manually approve new users (by visiting the link logged on the console or by directly editing the database).
To use the Auth object, first of all you need to import it, instantiate it, configure it, and enable it.
from py4web.utils.auth import Auth
auth = Auth(session, db)
# (configure here)
auth.enable()
The import step is obvious. The second step does not perform any
operation other than telling the Auth object which session object to use
and which database to use. Auth data is stored in session['user']
and, if a user is logged in, the user id is stored in
session[‘user’][‘id’]. The db object is used to store persistent info
about the user in a table auth_user
which is created if missing.
The auth_user
table has the following fields:
nome do usuário
o email
senha
primeiro nome
último nome
sso_id (usado para single sign on, ver mais adiante)
action_token (usado para verificar e-mail, bloquear usuários e outras tarefas, também ver mais adiante).
A `` auth.enable () `` passo cria e expõe os seguintes APIs RESTful:
{Nomeaplic} / auth / api / registo (POST)
{Nomeaplic} / auth / api / Login (POST)
{Nomeaplic} / auth / api / request_reset_password (POST)
{Nomeaplic} / auth / api / reset_password (POST)
{Appname} / auth / api / verify_email (GET, POST)
{Nomeaplic} / auth / api / Sair (GET, POST) (+)
{Nomeaplic} / auth / api / perfil (GET, POST) (+)
{Nomeaplic} / auth / api / change_password (POST) (+)
{Nomeaplic} / auth / api / change_email (POST) (+)
Os que estão marcados com um (+) requerem um usuário conectado.
Interface de autenticação
Você pode criar sua própria interface do usuário da web para usuários de login usando as APIs acima, mas py4web fornece um como exemplo, implementada nos seguintes arquivos:
_Scaffold / templates / auth.html
_scaffold/templates/layout.html
The key section is in layout.html
where (using the no.css framework) the menu actions are defined:
1<ul>
2 [[if globals().get('user'):]]
3 <li>
4 <a class="navbar-link is-primary">
5 [[=globals().get('user',{}).get('email')]]
6 </a>
7 <ul>
8 <li><a href="[[=URL('auth/profile')]]">Edit Profile</a></li>
9 [[if 'change_password' in globals().get('actions',{}).get('allowed_actions',{}):]]
10 <li><a href="[[=URL('auth/change_password')]]">Change Password</a></li>
11 [[pass]]
12 <li><a href="[[=URL('auth/logout')]]">Logout</a></li>
13 </ul>
14 </li>
15 [[else:]]
16 <li>
17 Login
18 <ul>
19 <li><a href="[[=URL('auth/register')]]">Sign up</a></li>
20 <li><a href="[[=URL('auth/login')]]">Log in</a></li>
21 </ul>
22 </li>
23 [[pass]]
24</ul>
The menu is dynamic: on line 2 there is a check if the user is already defined
(i.e. if the user has already logged on). In this case the email is shown in the
top menu, plus the menu options Edit Profile
, Change Password
(optional) and
Logout
.
Instead, if the user is not already logged on, from line 15 there are
only the corresponding menu options allowed: Sign up
and Log in
.
Every menu option then redirects the user to the corresponding standard URL, which in turn activates the Auth action.
Using Auth inside actions
There two ways to use the Auth object in an action.
The first one does not force a login. With @action.uses(auth)
we tell py4web that this action should have information about the user,
trying to parse the session for a user session.
@action('index')
@action.uses(auth)
def index():
user = auth.get_user()
return 'hello {first_name}'.format(**user) if user else 'not logged in'
The second one forces the login if needed:
@action('index')
@action.uses(auth.user)
def index():
user = auth.get_user()
return 'hello {first_name}'.format(**user)
Aqui `` @ action.uses (auth.user) `` diz py4web que essa ação requer um usuário conectado e deve redirecionar para login se nenhum usuário está logado.
Two Factor Authentication
Two factor authentication (or Two-step verification) is a way of improving authentication security. When activated an extra step is added in the login process. In the first step, users are shown the standard username/password form. If they successfully pass this challenge by submitting the correct username and password, and two factor authentication is enabled for the user, the server will present a second form before logging them in.
There are a few Auth settings available to control how two factor authentication works.
The following can be specified on Auth instantiation:
two_factor_required
two_factor_send
two_factor_validate
two_factor_required
When you pass a method name to the two_factor_required
parameter you are telling py4web to call
that method to determine whether or not this login should be use or bypass two factor authentication.
If your method returns True, then this login requires two factor. If it returns False, two factor authentication
is bypassed for this login.
Sample two_factor_required
method
This example shows how to allow users that are on a specific network.
def user_outside_network(user, request):
import ipaddress
networks = ["10.10.0.0/22"]
ip_list = []
for range in networks:
ip_list.extend(ipaddress.IPv4Network(range))
if ipaddress.IPv4Address(request.remote_addr) in ip_list:
# if the client address is in the network address list, then do NOT require MFA
return False
return True
two_factor_send
When two factor authentication is active, py4web can generate a 6 digit code (using random.randint) and
makes it possible to send it to the user. How this code is sent, is up to you. The two_factor_send
argument to the Auth class allows you to specify the method that sends the two factor code to the user.
This example shows how to send an email with the two factor code:
def send_two_factor_email(user, code):
try:
auth.sender.send(
to=[user.email],
subject=f"Two factor login verification code",
body=f"You're verification code is {code}",
sender="from_address@youremail.com",
)
except Exception as e:
print(e)
return code
Notice that this method takes two arguments: the current user, and the code to be sent. Also notice this method can override the code and return a new one.
auth.param.two_factor_required = user_outside_network
auth.param.two_factor_send = send_two_factor_email
two_factor_validate
By default, py4web will validate the user input in the two factor form by comparing the code entered
by the user with the code generated and sent using two_factor_send
. However, sometimes it may be
useful to define a custom validation of this user-entered code. For instance, if one would like to use the
TOTP (or the Time-Based One-Time-Passwords) as the two factor authentication method, the validation
requires comparing the code entered by the user with the value generated at the same time at the server side.
Hence, it is not sufficient to generate that value earlier when showing the form (using for instance
two_factor_send
method), because by the time the user submits the form, the current valid value may
already be different. Instead, this value should be
generated when validating the form submitted by the user.
To accomplish such custom validation, the two_factor_validate
method is available. It takes two arguments:
the current user
the code that was entered by the user into the two factor authentication form
The primary use-case for this method is validation of time-based passwords.
This example shows how to validate a time-based two factor code:
def validate_code(user, code):
try:
# get the correct code from an external function
correct_code = generate_time_based_code(user_id)
except Exception as e:
# return None to indicate that validation could not be performed
return None
# compare the value entered in the auth form with the correct code
if code == correct_code:
return True
else:
return False
The validate_code
method must return one of three values:
True
- if the validation succeeded,False
- if the validation failed,None
- if the validation was not possible for any reason
Notice that - if defined - this method is _always_ called to validate the two factor
authentication form. It is up to you to decide what kind of validation it does. If the returned value is True
,
the user input will be accepted as valid. If the returned value is False
then the user input will be
rejected as invalid, number of tries will be decreased by one, and user will be asked to try again.
If the returned value is None
the user input will be checked against the code generated with the use
of two_factor_send
method and the final result will depend on that comparison. In this case authentication
will fail if two_factor_send
method was not defined, and hence no code was sent to the user.
auth.param.two_factor_validate = validate_code
two_factor_tries
By default, the user has 3 attempts to pass two factor authentication. You can override this after using:
auth.param.two_factor_tries = 5
Once this is all setup, the flow for two factor authentication is:
present the login page
- upon successful login and user passes two_factor_required
redirect to py4web auth/two_factor endpoint
- if
two_factor_send
method has been defined: generate 6 digit verification code
call
two_factor_send
to send the verification code to the user
- if
display verification page where user can enter their code
if
two_factor_validate
method has been defined - call it to validate the user-entered codeupon successful verification, take user to _next_url that was passed to the login page
Important! If you filtered ALLOWED_ACTIONS
in your app, make sure to whitelist the «two_factor» action
so not to block the two factor API.
Plugins de Autenticação
Plugins are defined in “py4web/utils/auth_plugins” and they have a hierarchical structure. Some are exclusive and some are not. For example, default, LDAP, PAM, and SAML are exclusive (the developer has to pick one). Default, Google, Facebook, and Twitter OAuth are not exclusive (the developer can pick them all and the user gets to choose using the UI).
O `` <auth /> `` componentes irá se adaptar automaticamente para formulários de login de exibição, conforme exigido pelos plugins instalados.
In the _scaffold/settings.py and _scaffold/common.py files you can see the default settings for the supported plugins.
PAM
Configurando PAM é o mais fácil:
from py4web.utils.auth_plugins.pam_plugin import PamPlugin
auth.register_plugin(PamPlugin())
This one like all plugins must be imported and registered. The constructor of this plugins does not require any arguments (where other plugins do).
O `` auth.register_plugin (…) `` must ** ** vir antes do `` auth.enable () ``, uma vez que não faz sentido para expor APIs antes de plugins desejados são montados.
Nota
by design PAM authentication using local users works fine only if py4web is run by root. Otherwise you can only authenticate the specific user that runs the py4web process.
LDAP
This is a common authentication method, especially using Microsoft Active Directory in enterprises.
from py4web.utils.auth_plugins.ldap_plugin import LDAPPlugin
LDAP_SETTING = {
'mode': 'ad',
'server': 'my.domain.controller',
'base_dn': 'cn=Users,dc=domain,dc=com'
}
auth.register_plugin(LDAPPlugin(**LDAP_SETTINGS))
Aviso
it needs the python-ldap module. On Ubuntu, you should also install some developer’s libraries
in advance with sudo apt-get install libldap2-dev libsasl2-dev
.
OAuth2 with Google
from py4web.utils.auth_plugins.oauth2google import OAuth2Google # TESTED
auth.register_plugin(OAuth2Google(
client_id=CLIENT_ID,
client_secret=CLIENT_SECRET,
callback_url='auth/plugin/oauth2google/callback'))
O ID de cliente e segredo do cliente deve ser fornecido pelo Google.
OAuth2 with Facebook
from py4web.utils.auth_plugins.oauth2facebook import OAuth2Facebook # UNTESTED
auth.register_plugin(OAuth2Facebook(
client_id=CLIENT_ID,
client_secret=CLIENT_SECRET,
callback_url='auth/plugin/oauth2google/callback'))
O ID de cliente e segredo do cliente deve ser fornecido pelo Facebook.
OAuth2 with Discord
from py4web.utils.auth_plugins.oauth2discord import OAuth2Discord
auth.register_plugin(OAuth2Discord(
client_id=DISCORD_CLIENT_ID,
client_secret=DISCORD_CLIENT_SECRET,
callback_url="auth/plugin/oauth2discord/callback"))
To obtain a Discord client ID and secret, create an application at https://discord.com/developers/applications.
You will also have to register your OAuth2 redirect URI in your created application, in the form of
http(s)://<your host>/<your app name>/auth/plugin/oauth2discord/callback
Nota
As Discord users have no concept of first/last name, the user in the auth table will contain the Discord username as the first name and discriminator as the last name.
Authorization using Tags
As already mentioned, authorization is the process of verifying what specific
applications, files, and data a user has access to. This is accomplished
in py4web using Tags
, that we’ve already discovered on Marcação de registros
in the DAL chapter.
Etiquetas e permissões
Py4web provides a general purpose tagging mechanism that allows the developer to tag any record of any table, check for the existence of tags, as well as checking for records containing a tag. Group membership can be thought of a type of tag that we apply to users. Permissions can also be tags. Developers are free to create their own logic on top of the tagging system.
Nota
Py4web does not have the concept of groups as web2py does. Experience showed that while that mechanism is powerful it suffers from two problems: it is overkill for most apps, and it is not flexible enough for very complex apps.
To use the tagging system you first need to import the Tags module
from pydal.tools
. Then create a Tags object to tag a table:
from pydal.tools.tags import Tags
groups = Tags(db.auth_user, 'groups')
The tail_name parameter is optional and if not specified the “default”
value will be used. If you look at the database level, a new table will
be created with a name equals to tagged_db + '_tag_' + tail_name
,
in this case auth_user_tag_groups
:
Então você pode adicionar uma ou mais marcas de registros da tabela, bem como remover existente tags:
groups.add(user.id, 'manager')
groups.add(user.id, ['dancer', 'teacher'])
groups.remove(user.id, 'dancer')
On the auth_user_tagged_groups
this will produce two records
with different groups assigned to the same user.id (the «Record ID» field):
Slashes at the beginning or the end of a tag are optional. All other chars are allowed on equal footing.
A common use case is group based access control. Here the developer
first checks if a user is a member of the 'manager'
group, if the
user is not a manager (or no one is logged in) py4web redirects to the
'not authorized url'
. Else the user is in the correct group and then
py4web displays ‘hello manager’:
@action('index')
@action.uses(auth.user)
def index():
if not 'manager' in groups.get(auth.get_user()['id']):
redirect(URL('not_authorized'))
return 'hello manager'
Aqui o desenvolvedor consulta o banco de dados para todos os registros que têm a tag desejada (s):
@action('find_by_tag/{group_name}')
@action.uses(db)
def find(group_name):
users = db(groups.find([group_name])).select(orderby=db.auth_user.first_name | db.auth_user.last_name)
return {'users': users}
We’ve already seen a simple requires_membership
fixture on :ref:The Condition fixture
. It
enables the following syntax:
groups = Tags(db.auth_user)
class requires_membership(Fixture):
def __init__(self, group):
self.__prerequisites__ = [auth.user] # you must have a user before you can check
self.group = group # store the group when action defined
def on_request(self, context): # will be called if the action is called
if self.group not in groups.get(auth.user_id):
raise HTTP(401) # check and do something
@action('index')
@action.uses(requires_membership('teacher'))
def index():
return 'hello teacher'
Deixamos para você como um exercício para criar um dispositivo elétrico `` has_membership`` para permitir a seguinte sintaxe:
@action('index')
@action.uses(has_membership(groups, 'teacher'))
def index():
return 'hello teacher'
Important: Tags
are automatically hierarchical. For example, if
a user has a group tag ‘teacher/high-school/physics’, then all the
following searches will return the user:
`` Groups.find ( “professor /-ensino médio / física”) ``
`` Groups.find ( “professor /-colegial”) ``
`` Groups.find ( “professor”) ``
This means that slashes have a special meaning for tags.
Multiple Tags objects
Nota
One table can have multiple associated Tags
objects. The
name “groups” here is completely arbitrary but has a specific semantic
meaning. Different Tags
objects are independent to each other. The
limit to their use is your creativity.
For example you could create a table auth_group
:
db.define_table('auth_group', Field('name'), Field('description'))
and two Tags attached to it:
groups = Tags(db.auth_user)
permissions = Tags(db.auth_groups)
Then create a “zapper” record in auth_group
, give it a permission, and make a user member
of the group:
zap_id = db.auth_group.insert(name='zapper', description='can zap database')
permissions.add(zap_id, 'zap database')
groups.add(user.id, 'zapper')
E você pode verificar se há uma permissão de utilizador através de uma junção explícita:
@action('zap')
@action.uses(auth.user)
def zap():
user = auth.get_user()
permission = 'zap database'
if db(permissions.find(permission))(
db.auth_group.name.belongs(groups.get(user['id']))
).count():
# zap db
return 'database zapped'
else:
return 'you do not belong to any group with permission to zap db'
Aviso aqui `` permissions.find (permissão) `` gera uma consulta para todos os grupos com a permissão e que ainda filtro desses grupos para aqueles do utilizador actual é membro da. Contamos eles e se encontrarmos qualquer, então o usuário tem a permissão.
User Impersonation
Auth provides API that allow you to impersonate another user. Here is an example of an action to start impersonating and stop impersonating another user.
@action("impersonate/{user_id:int}", method="GET")
@action.uses(auth.user)
def start_impersonating(user_id):
if (not auth.is_impersonating() and
user_id and
user_id != auth.user_id and
db(db.auth_user.id==user_id).count()):
auth.start_impersonating(user_id, URL("index"))
raise HTTP(404)
@action("stop_impersonating", method="GET")
@action.uses(auth)
def stop_impersonating():
if auth and auth.is_impersonating():
auth.stop_impersonating(URL("index"))
redirect(URL("index"))