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195 lines
7.0 KiB
Go
195 lines
7.0 KiB
Go
// Copyright 2012 The Gorilla Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style
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// license that can be found in the LICENSE file.
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/*
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Package sessions provides cookie and filesystem sessions and
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infrastructure for custom session backends.
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The key features are:
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* Simple API: use it as an easy way to set signed (and optionally
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encrypted) cookies.
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* Built-in backends to store sessions in cookies or the filesystem.
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* Flash messages: session values that last until read.
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* Convenient way to switch session persistency (aka "remember me") and set
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other attributes.
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* Mechanism to rotate authentication and encryption keys.
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* Multiple sessions per request, even using different backends.
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* Interfaces and infrastructure for custom session backends: sessions from
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different stores can be retrieved and batch-saved using a common API.
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Let's start with an example that shows the sessions API in a nutshell:
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import (
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"net/http"
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"github.com/gorilla/sessions"
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)
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// Note: Don't store your key in your source code. Pass it via an
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// environmental variable, or flag (or both), and don't accidentally commit it
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// alongside your code. Ensure your key is sufficiently random - i.e. use Go's
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// crypto/rand or securecookie.GenerateRandomKey(32) and persist the result.
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var store = sessions.NewCookieStore(os.Getenv("SESSION_KEY"))
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func MyHandler(w http.ResponseWriter, r *http.Request) {
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// Get a session. Get() always returns a session, even if empty.
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session, err := store.Get(r, "session-name")
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if err != nil {
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http.Error(w, err.Error(), http.StatusInternalServerError)
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return
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}
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// Set some session values.
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session.Values["foo"] = "bar"
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session.Values[42] = 43
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// Save it before we write to the response/return from the handler.
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session.Save(r, w)
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}
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First we initialize a session store calling NewCookieStore() and passing a
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secret key used to authenticate the session. Inside the handler, we call
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store.Get() to retrieve an existing session or a new one. Then we set some
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session values in session.Values, which is a map[interface{}]interface{}.
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And finally we call session.Save() to save the session in the response.
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Note that in production code, we should check for errors when calling
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session.Save(r, w), and either display an error message or otherwise handle it.
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Save must be called before writing to the response, otherwise the session
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cookie will not be sent to the client.
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That's all you need to know for the basic usage. Let's take a look at other
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options, starting with flash messages.
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Flash messages are session values that last until read. The term appeared with
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Ruby On Rails a few years back. When we request a flash message, it is removed
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from the session. To add a flash, call session.AddFlash(), and to get all
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flashes, call session.Flashes(). Here is an example:
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func MyHandler(w http.ResponseWriter, r *http.Request) {
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// Get a session.
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session, err := store.Get(r, "session-name")
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if err != nil {
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http.Error(w, err.Error(), http.StatusInternalServerError)
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return
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}
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// Get the previous flashes, if any.
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if flashes := session.Flashes(); len(flashes) > 0 {
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// Use the flash values.
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} else {
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// Set a new flash.
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session.AddFlash("Hello, flash messages world!")
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}
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session.Save(r, w)
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}
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Flash messages are useful to set information to be read after a redirection,
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like after form submissions.
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There may also be cases where you want to store a complex datatype within a
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session, such as a struct. Sessions are serialised using the encoding/gob package,
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so it is easy to register new datatypes for storage in sessions:
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import(
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"encoding/gob"
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"github.com/gorilla/sessions"
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)
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type Person struct {
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FirstName string
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LastName string
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Email string
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Age int
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}
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type M map[string]interface{}
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func init() {
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gob.Register(&Person{})
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gob.Register(&M{})
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}
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As it's not possible to pass a raw type as a parameter to a function, gob.Register()
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relies on us passing it a value of the desired type. In the example above we've passed
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it a pointer to a struct and a pointer to a custom type representing a
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map[string]interface. (We could have passed non-pointer values if we wished.) This will
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then allow us to serialise/deserialise values of those types to and from our sessions.
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Note that because session values are stored in a map[string]interface{}, there's
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a need to type-assert data when retrieving it. We'll use the Person struct we registered above:
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func MyHandler(w http.ResponseWriter, r *http.Request) {
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session, err := store.Get(r, "session-name")
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if err != nil {
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http.Error(w, err.Error(), http.StatusInternalServerError)
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return
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}
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// Retrieve our struct and type-assert it
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val := session.Values["person"]
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var person = &Person{}
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if person, ok := val.(*Person); !ok {
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// Handle the case that it's not an expected type
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}
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// Now we can use our person object
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}
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By default, session cookies last for a month. This is probably too long for
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some cases, but it is easy to change this and other attributes during
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runtime. Sessions can be configured individually or the store can be
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configured and then all sessions saved using it will use that configuration.
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We access session.Options or store.Options to set a new configuration. The
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fields are basically a subset of http.Cookie fields. Let's change the
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maximum age of a session to one week:
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session.Options = &sessions.Options{
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Path: "/",
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MaxAge: 86400 * 7,
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HttpOnly: true,
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}
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Sometimes we may want to change authentication and/or encryption keys without
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breaking existing sessions. The CookieStore supports key rotation, and to use
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it you just need to set multiple authentication and encryption keys, in pairs,
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to be tested in order:
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var store = sessions.NewCookieStore(
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[]byte("new-authentication-key"),
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[]byte("new-encryption-key"),
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[]byte("old-authentication-key"),
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[]byte("old-encryption-key"),
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)
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New sessions will be saved using the first pair. Old sessions can still be
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read because the first pair will fail, and the second will be tested. This
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makes it easy to "rotate" secret keys and still be able to validate existing
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sessions. Note: for all pairs the encryption key is optional; set it to nil
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or omit it and and encryption won't be used.
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Multiple sessions can be used in the same request, even with different
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session backends. When this happens, calling Save() on each session
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individually would be cumbersome, so we have a way to save all sessions
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at once: it's sessions.Save(). Here's an example:
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var store = sessions.NewCookieStore([]byte("something-very-secret"))
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func MyHandler(w http.ResponseWriter, r *http.Request) {
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// Get a session and set a value.
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session1, _ := store.Get(r, "session-one")
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session1.Values["foo"] = "bar"
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// Get another session and set another value.
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session2, _ := store.Get(r, "session-two")
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session2.Values[42] = 43
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// Save all sessions.
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sessions.Save(r, w)
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}
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This is possible because when we call Get() from a session store, it adds the
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session to a common registry. Save() uses it to save all registered sessions.
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*/
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package sessions
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