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github.com/izinga/csrf
gorilla/csrf is a HTTP middleware library that provides cross-site request forgery (CSRF) protection. It includes:
csrf.Protect
middleware/handler provides CSRF protection on routes
attached to a router or a sub-router.csrf.Token
function that provides the token to pass into your response,
whether that be a HTML form or a JSON response body.csrf.TemplateField
helper that you can pass into your html/template
templates to replace a {{ .csrfField }}
template tag with a hidden input
field.gorilla/csrf is designed to work with any Go web framework, including:
http.Handler
interface.gorilla/csrf is also compatible with middleware 'helper' libraries like Alice and Negroni.
With a properly configured Go toolchain:
go get github.com/gorilla/csrf
gorilla/csrf is easy to use: add the middleware to your router with the below:
CSRF := csrf.Protect([]byte("32-byte-long-auth-key"))
http.ListenAndServe(":8000", CSRF(r))
...and then collect the token with csrf.Token(r)
in your handlers before
passing it to the template, JSON body or HTTP header (see below).
Note that the authentication key passed to csrf.Protect([]byte(key))
should:
Generating a random key won't allow you to authenticate existing cookies and will break your CSRF validation.
gorilla/csrf inspects the HTTP headers (first) and form body (second) on subsequent POST/PUT/PATCH/DELETE/etc. requests for the token.
Here's the common use-case: HTML forms you want to provide CSRF protection for, in order to protect malicious POST requests being made:
package main
import (
"net/http"
"github.com/gorilla/csrf"
"github.com/gorilla/mux"
)
func main() {
r := mux.NewRouter()
r.HandleFunc("/signup", ShowSignupForm)
// All POST requests without a valid token will return HTTP 403 Forbidden.
// We should also ensure that our mutating (non-idempotent) handler only
// matches on POST requests. We can check that here, at the router level, or
// within the handler itself via r.Method.
r.HandleFunc("/signup/post", SubmitSignupForm).Methods("POST")
// Add the middleware to your router by wrapping it.
http.ListenAndServe(":8000",
csrf.Protect([]byte("32-byte-long-auth-key"))(r))
// PS: Don't forget to pass csrf.Secure(false) if you're developing locally
// over plain HTTP (just don't leave it on in production).
}
func ShowSignupForm(w http.ResponseWriter, r *http.Request) {
// signup_form.tmpl just needs a {{ .csrfField }} template tag for
// csrf.TemplateField to inject the CSRF token into. Easy!
t.ExecuteTemplate(w, "signup_form.tmpl", map[string]interface{}{
csrf.TemplateTag: csrf.TemplateField(r),
})
// We could also retrieve the token directly from csrf.Token(r) and
// set it in the request header - w.Header.Set("X-CSRF-Token", token)
// This is useful if you're sending JSON to clients or a front-end JavaScript
// framework.
}
func SubmitSignupForm(w http.ResponseWriter, r *http.Request) {
// We can trust that requests making it this far have satisfied
// our CSRF protection requirements.
}
Note that the CSRF middleware will (by necessity) consume the request body if the token is passed via POST form values. If you need to consume this in your handler, insert your own middleware earlier in the chain to capture the request body.
This approach is useful if you're using a front-end JavaScript framework like React, Ember or Angular, and are providing a JSON API. Specifically, we need to provide a way for our front-end fetch/AJAX calls to pass the token on each fetch (AJAX/XMLHttpRequest) request. We achieve this by:
<input>
field generated by the
csrf.TemplateField(r)
helper, or passing it back in a response header.We'll also look at applying selective CSRF protection using gorilla/mux's sub-routers, as we don't handle any POST/PUT/DELETE requests with our top-level router.
package main
import (
"github.com/gorilla/csrf"
"github.com/gorilla/mux"
)
func main() {
r := mux.NewRouter()
csrfMiddleware := csrf.Protect([]byte("32-byte-long-auth-key"))
api := r.PathPrefix("/api").Subrouter()
api.Use(csrfMiddleware)
api.HandleFunc("/user/{id}", GetUser).Methods("GET")
http.ListenAndServe(":8000", r)
}
func GetUser(w http.ResponseWriter, r *http.Request) {
// Authenticate the request, get the id from the route params,
// and fetch the user from the DB, etc.
// Get the token and pass it in the CSRF header. Our JSON-speaking client
// or JavaScript framework can now read the header and return the token in
// in its own "X-CSRF-Token" request header on the subsequent POST.
w.Header().Set("X-CSRF-Token", csrf.Token(r))
b, err := json.Marshal(user)
if err != nil {
http.Error(w, err.Error(), 500)
return
}
w.Write(b)
}
In our JavaScript application, we should read the token from the response headers and pass it in a request header for all requests. Here's what that looks like when using Axios, a popular JavaScript HTTP client library:
// You can alternatively parse the response header for the X-CSRF-Token, and
// store that instead, if you followed the steps above to write the token to a
// response header.
let csrfToken = document.getElementsByName("gorilla.csrf.Token")[0].value
// via https://github.com/axios/axios#creating-an-instance
const instance = axios.create({
baseURL: "https://example.com/api/",
timeout: 1000,
headers: { "X-CSRF-Token": csrfToken }
})
// Now, any HTTP request you make will include the csrfToken from the page,
// provided you update the csrfToken variable for each render.
try {
let resp = await instance.post(endpoint, formData)
// Do something with resp
} catch (err) {
// Handle the exception
}
If you plan to host your JavaScript application on another domain, you can use the Trusted Origins feature to allow the host of your JavaScript application to make requests to your Go application. Observe the example below:
package main
import (
"github.com/gorilla/csrf"
"github.com/gorilla/mux"
)
func main() {
r := mux.NewRouter()
csrfMiddleware := csrf.Protect([]byte("32-byte-long-auth-key"), csrf.TrustedOrigins([]string{"ui.domain.com"}))
api := r.PathPrefix("/api").Subrouter()
api.Use(csrfMiddleware)
api.HandleFunc("/user/{id}", GetUser).Methods("GET")
http.ListenAndServe(":8000", r)
}
func GetUser(w http.ResponseWriter, r *http.Request) {
// Authenticate the request, get the id from the route params,
// and fetch the user from the DB, etc.
// Get the token and pass it in the CSRF header. Our JSON-speaking client
// or JavaScript framework can now read the header and return the token in
// in its own "X-CSRF-Token" request header on the subsequent POST.
w.Header().Set("X-CSRF-Token", csrf.Token(r))
b, err := json.Marshal(user)
if err != nil {
http.Error(w, err.Error(), 500)
return
}
w.Write(b)
}
On the example above, you're authorizing requests from ui.domain.com
to make valid CSRF requests to your application, so you can have your API server on another domain without problems.
If you're using Google App
Engine,
(first-generation) which doesn't allow you to hook into the default http.ServeMux
directly,
you can still use gorilla/csrf (and gorilla/mux):
package app
// Remember: appengine has its own package main
func init() {
r := mux.NewRouter()
r.HandleFunc("/", IndexHandler)
// ...
// We pass our CSRF-protected router to the DefaultServeMux
http.Handle("/", csrf.Protect([]byte(your-key))(r))
}
Note: You can ignore this if you're using the second-generation Go runtime on App Engine (Go 1.11 and above).
Go 1.11 introduced the option to set the SameSite attribute in cookies. This is valuable if a developer wants to instruct a browser to not include cookies during a cross site request. SameSiteStrictMode prevents all cross site requests from including the cookie. SameSiteLaxMode prevents CSRF prone requests (POST) from including the cookie but allows the cookie to be included in GET requests to support external linking.
func main() {
CSRF := csrf.Protect(
[]byte("a-32-byte-long-key-goes-here"),
// instruct the browser to never send cookies during cross site requests
csrf.SameSite(csrf.SameSiteStrictMode),
)
r := mux.NewRouter()
r.HandleFunc("/signup", GetSignupForm)
r.HandleFunc("/signup/post", PostSignupForm)
http.ListenAndServe(":8000", CSRF(r))
}
By default, CSRF cookies are set on the path of the request.
This can create issues, if the request is done from one path to a different path.
You might want to set up a root path for all the cookies; that way, the CSRF will always work across all your paths.
CSRF := csrf.Protect(
[]byte("a-32-byte-long-key-goes-here"),
csrf.Path("/"),
)
What about providing your own error handler and changing the HTTP header the package inspects on requests? (i.e. an existing API you're porting to Go). Well, gorilla/csrf provides options for changing these as you see fit:
func main() {
CSRF := csrf.Protect(
[]byte("a-32-byte-long-key-goes-here"),
csrf.RequestHeader("Authenticity-Token"),
csrf.FieldName("authenticity_token"),
csrf.ErrorHandler(http.HandlerFunc(serverError(403))),
)
r := mux.NewRouter()
r.HandleFunc("/signup", GetSignupForm)
r.HandleFunc("/signup/post", PostSignupForm)
http.ListenAndServe(":8000", CSRF(r))
}
Not too bad, right?
If there's something you're confused about or a feature you would like to see added, open an issue.
Getting CSRF protection right is important, so here's some background:
crypto/rand
library is used to generate the 32 byte (256 bit) tokens
and the one-time-pad used for masking them.This library does not seek to be adventurous.
BSD licensed. See the LICENSE file for details.
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