Create a secure stateless cookie session for Fastify, based on libsodium's Secret Key Box Encryption and @fastify/cookie.
First generate a key with:
npx @fastify/secure-session > secret-key
If running in Windows Powershell, you should use this command instead:
npx @fastify/secure-session | Out-File -Encoding default -NoNewline -FilePath secret-key
If you have not previously used this module with npx, you will be prompted to install it, which with the output redirect will cause the command to wait forever for input.
To avoid this use the --yes
flag with npx:
npx --yes @fastify/secure-session > secret-key
If you don't want to use npx
, you can still generate the secret-key
installing the @fastify/secure-session
library with your choice package manager, and then:
./node_modules/@fastify/secure-session/genkey.js > secret-key
Then, register the plugin as follows:
'use strict'
const fastify = require('fastify')({ logger: false })
const fs = require('node:fs')
const path = require('node:path')
fastify.register(require('@fastify/secure-session'), {
// the name of the attribute decorated on the request-object, defaults to 'session'
sessionName: 'session',
// the name of the session cookie, defaults to value of sessionName
cookieName: 'my-session-cookie',
// adapt this to point to the directory where secret-key is located
key: fs.readFileSync(path.join(__dirname, 'secret-key')),
// the amount of time the session is considered valid; this is different from the cookie options
// and based on value wihin the session.
expiry: 24 * 60 * 60, // Default 1 day
cookie: {
path: '/'
// options for setCookie, see https://github.com/fastify/fastify-cookie
}
})
fastify.post('/', (request, reply) => {
request.session.set('data', request.body)
// or when using a custom sessionName:
request.customSessionName.set('data', request.body)
reply.send('hello world')
})
fastify.get('/', (request, reply) => {
const data = request.session.get('data')
if (!data) {
reply.code(404).send()
return
}
reply.send(data)
})
fastify.get('/ping', (request, reply) => {
request.session.options({maxAge: 3600})
// Send the session cookie to the client even if the session data didn't change
// can be used to update cookie expiration
request.session.touch()
reply.send('pong')
})
fastify.post('/logout', (request, reply) => {
request.session.delete()
reply.send('logged out')
})
If you enable debug
level logging,
you will see what steps the library is doing and understand why a session you
expect to be there is not present. For extra details, you can also enable trace
level logging.
Note: Instead of using the get
and set
methods as seen above, you may also wish to use property getters and setters to make your code compatible with other libraries ie request.session.data = request.body
and const data = request.session.data
are also possible. However, if you want to have properties named changed
or deleted
in your session data, they can only be accessed via session.get()
and session.set()
. (Those are the names of internal properties used by the Session object)
If you want to use multiple sessions, you have to supply an array of options when registering the plugin. It supports the same options as a single session but in this case, the sessionName
name is mandatory.
fastify.register(require('@fastify/secure-session'), [{
sessionName: 'mySession',
cookieName: 'my-session-cookie',
key: fs.readFileSync(path.join(__dirname, 'secret-key')),
cookie: {
path: '/'
}
}, {
sessionName: 'myOtherSession',
key: fs.readFileSync(path.join(__dirname, 'another-secret-key')),
cookie: {
path: '/path',
maxAge: 100
}
}])
fastify.post('/', (request, reply) => {
request.mySession.set('data', request.body)
request.myOtherSession.set('data', request.body)
reply.send('hello world')
})
You can convert your key file to a hexadecimal string. This is useful in scenarios where you would rather load the key from an environment variable instead of deploying a file.
To convert a key file into a hexadecimal string you can do this in an npm script:
const keyBuffer = fs.readFileSync(path.join(__dirname, 'secret-key'));
const hexString = keyBuffer.toString('hex');
console.log(hexString) // Outputs: 4fe91796c30bd989d95b62dc46c7c3ba0b6aa2df2187400586a4121c54c53b85
To use your hexadecimal string with this plugin you would need convert it back into a Buffer:
fastify.register(require('@fastify/secure-session'), {
key: Buffer.from(process.env.COOKIE_KEY, 'hex')
})
Note: key
must be a secret key of length crypto_secretbox_KEYBYTES.
You can call regenerate
on the session to clear all data. You can also pass an array of keys to keep in the session:
fastify.post('/clear-session', (request, reply) => {
request.session.regenerate(['user']) //clear all session data except `user` key
request.session.regenerate() //clear all session data
reply.send('session cleared')
})
- Although the example reads the key from a file on disk, it is poor practice when it comes to security. Ideally, you should store secret/keys into a key management service like Vault, KMS or something similar and read them at run-time.
- Use
httpOnly
session cookie for all production purposes to reduce the risk of session highjacking or XSS.
It is possible to generate a high-entropy key from a (low-entropy) secret passphrase. This approach is the simplest to use, but it adds a significant startup delay as strong cryptography is applied.
const fastify = require('fastify')({ logger: false })
fastify.register(require('@fastify/secure-session'), {
secret: 'averylogphrasebiggerthanthirtytwochars',
salt: 'mq9hDxBVDbspDR6n',
cookie: {
path: '/',
httpOnly: true // Use httpOnly for all production purposes
// options for setCookie, see https://github.com/fastify/fastify-cookie
}
})
fastify.post('/', (request, reply) => {
request.session.set('data', request.body)
reply.send('session set')
})
fastify.get('/', (request, reply) => {
const data = request.session.get('data')
if (!data) {
reply.code(404).send()
return
}
reply.send(data)
})
fastify.get('/all', (request, reply) => {
// get all data from session
const data = request.session.data()
if (!data) {
reply.code(404).send()
return
}
reply.send(data)
})
fastify.listen({ port: 3000 })
It is possible to use an non-empty array for the key field to support key rotation as an additional security measure. Cookies will always be signed with the first key in the array to try to "err on the side of performance" however if decoding the key fails, it will attempt to decode using every subsequent value in the key array.
IMPORTANT: The new key you are trying to rotate to should always be the first key in the array. For example:
// first time running the app
fastify.register(require('@fastify/secure-session'), {
key: [mySecureKey],
cookie: {
path: '/'
// options for setCookie, see https://github.com/fastify/fastify-cookie
}
})
The above example will sign and encrypt/decrypt sessions just fine. However, what if you want an extra security measure of being able to rotate your secret credentials for your application? This library supports this by allowing you to do the following:
// first time running the app
fastify.register(require('@fastify/secure-session'), {
key: [myNewKey, mySecureKey],
cookie: {
path: '/'
// options for setCookie, see https://github.com/fastify/fastify-cookie
}
})
See that myNewKey
was added to the first index position in the key array. This allows any sessions that were created
with the original mySecureKey
to still be decoded. The first time a session signed with an older key is "seen", by the application, this library will re-sign the cookie with the newest session key therefore improving performance for any subsequent session decodes.
To see a full working example, make sure you generate secret-key1
and secret-key2
alongside the js file below by running:
npx @fastify/secure-session > secret-key1
npx @fastify/secure-session > secret-key2
const fs = require('node:fs')
const fastify = require('fastify')({ logger: false })
const key1 = fs.readFileSync(path.join(__dirname, 'secret-key1'))
const key2 = fs.readFileSync(path.join(__dirname, 'secret-key2'))
fastify.register(require('@fastify/secure-session'), {
// any old sessions signed with key2 will still be decoded successfully the first time and
// then re-signed with key1 to keep good performance with subsequent calls
key: [key1, key2],
cookie: {
path: '/'
// options for setCookie, see https://github.com/fastify/fastify-cookie
}
})
fastify.post('/', (request, reply) => {
// will always be encrypted using `key1` with the configuration above
request.session.set('data', request.body)
reply.send('session set')
})
fastify.get('/', (request, reply) => {
// will attempt to decode using key1 and then key2 if decoding with key1 fails
const data = request.session.get('data')
if (!data) {
reply.code(404).send()
return
}
reply.send(data)
})
fastify.listen({ port: 3000 })
WARNING: The more keys you have in the key array can make the decode operation get expensive if too many keys are used. at once. It is recommended to only use 2 keys at a given time so that the most decode attempts will ever be is 2. This should allow ample support time for supporting sessions with an old key while rotating to the new one. If you have really long lived sessions it could be possible to need to support 3 or even 4 keys. Since old sessions are re-signed with the key at the first index the next time they are seen by the application, you can get away with this. That first time the older session is decoded will be a little more expensive though.
For a full "start to finish" example without having to generate keys and setup a server file, see the second test case in the test file at /test/key-rotation.js
in this repo.
You can configure the options for setCookie
inside a route by using the session.options()
method.
fastify.post('/', (request, reply) => {
request.session.set('data', request.body)
// .options takes any parameter that you can pass to setCookie
request.session.options({ maxAge: 60 * 60 }); // 3600 seconds => maxAge is always passed in seconds
reply.send('hello world')
})
If you need to encode or decode a session in related systems (like say @fastify/websocket
, which does not use normal Fastify Request
objects), you can use @fastify/secure-session
's decorators to encode and decode sessions yourself. This is less than ideal as this library's cookie setting code is battle tested by the community, but the option is there if you need it.
fastify.createSecureSession({ foo: 'bar' })
// => Session returns a session object for manipulating with .get and .set to then be encoded with encodeSecureSession
fastify.encodeSecureSession(request.session)
// => "abcdefg" returns the signed and encrypted cookie string, suitable for passing to a Set-Cookie header
fastify.decodeSecureSession(request.cookies['session'])
// => Session | null returns a session object which you can use to .get values from if decoding is successful, and null otherwise
When using multiple sessions, you will have to provide the sessionName when encoding and decoding the session.
fastify.encodeSecureSession(request.session, 'mySecondSession')
fastify.decodeSecureSession(request.cookies['session'], undefined, 'mySecondSession')
The session data is defined as an interface called SessionData
. It can be extended with declaration merging for improved type support.
declare module '@fastify/secure-session' {
interface SessionData {
foo: string;
}
}
fastify.get('/', (request, reply) => {
request.session.get('foo'); // typed `string | undefined`
reply.send('hello world')
})
When using a custom sessionName or using multiple sessions the types should be configured as follows:
interface FooSessionData {
foo: string;
}
declare module "fastify" {
interface FastifyRequest {
foo: Session<FooSessionData>;
}
}
fastify.get('/', (request, reply) => {
request.foo.get('foo'); // typed `string | undefined`
reply.send('hello world')
})
@fastify/secure-session
stores the session within a cookie, and as a result an attacker could impersonate a user
if the cookie is leaked. The maximum expiration time of the session is set by the expiry
option, which has default
1 day. Adjust this parameter accordingly.
Moreover, to protect users from further attacks, all cookies are created as "http only" if not specified otherwise.
MIT