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csrf_test.v | ||
csrf.v | ||
README.md |
Cross-Site Request Forgery (CSRF) protection
This module implements the double submit cookie technique to protect routes from CSRF attacks.
CSRF is a type of attack that occurs when a malicious program/website (and others) causes a user's web browser to perform an action without them knowing. A web browser automatically sends cookies to a website when it performs a request, including session cookies. So if a user is authenticated on your website the website can not distinguish a forged request by a legitimate request.
When to not add CSRF-protection
If you are creating a service that is intended to be used by other servers e.g. an API, you probably don't want CSRF-protection. An alternative would be to send an Authorization token in, and only in, an HTTP-header (like JSON Web Tokens). If you do that your website isn't vulnerable to CSRF-attacks.
Usage
You can add CsrfApp
to your own App
struct to have the functions available
in your app's context, or you can use it with the middleware of vweb.
The advantage of the middleware approach is that you have to define
the configuration separate from your App
. This makes it possible to share the
configuration between modules or controllers.
Usage with the CsrfApp
Change secret
and allowed_hosts
when creating the CsrfApp
.
Example:
module main
import net.http
import vweb
import vweb.csrf
struct App {
vweb.Context
pub mut:
csrf csrf.CsrfApp [vweb_global]
}
fn main() {
app := &App{
csrf: csrf.CsrfApp{
// change the secret
secret: 'my-64bytes-secret'
// change to which domains you want to allow
allowed_hosts: ['*']
}
}
vweb.run(app, 8080)
}
pub fn (mut app App) index() vweb.Result {
// this line sets `app.token` and the cookie
app.csrf.set_token(mut app.Context)
return $vweb.html()
}
[post]
pub fn (mut app App) auth() vweb.Result {
// this line protects the route against CSRF
app.csrf.protect(mut app.Context)
return app.text('authenticated!')
}
index.html
<form action="/auth" method="post">
<input type="hidden" name="@app.csrf.token_name" value="@app.csrf.token"/>
<label for="password">Your password:</label>
<input type="text" id="password" name="password" placeholder="Your password" />
</form>
Usage without CsrfApp
If you use vweb.Middleware
you can protect multiple routes at once.
Example:
module main
import net.http
import vweb
import vweb.csrf
const (
// the configuration moved here
csrf_config = csrf.CsrfConfig{
// change the secret
secret: 'my-64bytes-secret'
// change to which domains you want to allow
allowed_hosts: ['*']
}
)
struct App {
vweb.Context
pub mut:
middlewares map[string][]vweb.Middleware
}
fn main() {
app := &App{
middlewares: {
// protect all routes starting with the url '/auth'
'/auth': [csrf.middleware(csrf_config)]
}
}
vweb.run(app, 8080)
}
pub fn (mut app App) index() vweb.Result {
// get the token and set the cookie
csrftoken := csrf.set_token(mut app.Context, csrf_config)
return $vweb.html()
}
[post]
pub fn (mut app App) auth() vweb.Result {
return app.text('authenticated!')
}
[post]
pub fn (mut app App) register() vweb.Result {
// protect an individual route with the following line
csrf.protect(mut app.Context, csrf_config)
// ...
}
index.html (the hidden input has changed)
<form action="/auth" method="post">
<input type="hidden" name="@csrf_config.token_name" value="@csrftoken"/>
<label for="password">Your password:</label>
<input type="text" id="password" name="password" placeholder="Your password" />
</form>
Protect all routes
It is possible to protect all routes against CSRF-attacks. Every request that is not
defined as a safe method (GET
, OPTIONS
, HEAD
by default)
will have CSRF-protection.
Example:
pub fn (mut app App) before_request() {
app.csrf.protect(mut app.Context)
// or if you don't use `CsrfApp`:
// csrf.protect(mut app.Context, csrf_config)
}
How it works
This module implements the double submit cookie technique: a random token is generated, the CSRF-token. The hmac of this token and the secret key is stored in a cookie.
When a request is made, the CSRF-token should be placed inside a HTML form element. The CSRF-token the hmac of the CSRF-token in the formdata is compared to the cookie. If the values match, the request is accepted.
This approach has the advantage of being stateless: there is no need to store tokens on the server side and validate them. The token and cookie are bound cryptographically to each other so an attacker would need to know both values in order to make a CSRF-attack succeed. That is why is it important to not leak the CSRF-token via an url, or some other way. See client side CSRF for more information.
This is a high level overview of the implementation.
Security Considerations
The secret key
The secret key should be a random string that is not easily guessable. The recommended size is 64 bytes.
Sessions
If your app supports some kind of user sessions, it is recommended to cryptographically bind the CSRF-token to the users' session. You can do that by providing the name of the session ID cookie. If an attacker changes the session ID in the cookie, in the token or both the hmac will be different adn the request will be rejected.
Example:
csrf_config = csrf.CsrfConfig{
// ...
session_cookie: 'my_session_id_cookie_name'
}
Safe Methods
The HTTP methods GET
, OPTIONS
, HEAD
are considered
safe methods meaning they should not alter the state of
an application. If a request with a "safe method" is made, the csrf protection will be skipped.
You can change which methods are considered safe by changing CsrfConfig.safe_methods
.
Allowed Hosts
By default, both the http Origin and Referer headers are checked and matched strictly
to the values in allowed_hosts
. That means that you need to include each subdomain.
If the value of allowed_hosts
contains the wildcard: '*'
the headers will not be checked.
Domain name matching
The following configuration will not allow requests made from test.example.com
,
only from example.com
.
Example
config := csrf.CsrfConfig{
secret: '...'
allowed_hosts: ['example.com']
}
Referer, Origin header check
In some cases (like if your server is behind a proxy), the Origin or Referer header will
not be present. If that is your case you can set check_origin_and_referer
to false
.
Request will now be accepted when the Origin or Referer header is valid.
Share csrf cookie with subdomains
If you need to share the CSRF-token cookie with subdomains, you can set
same_site
to .same_site_lax_mode
.
Configuration
All configuration options are defined in CsrfConfig
.