@wingaru/passport
v2.4.1
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Simple, unobtrusive authentication for Fastify.
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@fastify/passport
@fastify/passport
is a port of passport
for the Fastify ecosystem. It lets you use Passport strategies to authenticate requests and protect Fastify routes!
Status
Beta. @fastify/passport
is still a relatively new project. There may be incompatibilities with express-based passport
deployments, and bugs. Please report any issues so we can correct them!
Installation
npm i @fastify/passport
Google OAuth2 Video tutorial
The community created this fast introduction to @fastify/passport
:
Example
import fastifyPassport from '@fastify/passport'
import fastifySecureSession from '@fastify/secure-session'
const server = fastify()
// set up secure sessions for @fastify/passport to store data in
server.register(fastifySecureSession, { key: fs.readFileSync(path.join(__dirname, 'secret-key')) })
// initialize @fastify/passport and connect it to the secure-session storage. Note: both of these plugins are mandatory.
server.register(fastifyPassport.initialize())
server.register(fastifyPassport.secureSession())
// register an example strategy for fastifyPassport to authenticate users using
fastifyPassport.use('test', new SomePassportStrategy()) // you'd probably use some passport strategy from npm here
// Add an authentication for a route which will use the strategy named "test" to protect the route
server.get(
'/',
{ preValidation: fastifyPassport.authenticate('test', { authInfo: false }) },
async () => 'hello world!'
)
// Add an authentication for a route which will use the strategy named "test" to protect the route, and redirect on success to a particular other route.
server.post(
'/login',
{ preValidation: fastifyPassport.authenticate('test', { successRedirect: '/', authInfo: false }) },
() => {}
)
server.listen()
Alternatively, @fastify/session
is also supported and works out of the box for session storage.
Here's an example:
import { Authenticator } from '@fastify/passport'
import fastifyCookie from '@fastify/cookie'
import fastifySession from '@fastify/session'
const server = fastify()
// setup an Authenticator instance which uses @fastify/session
const fastifyPassport = new Authenticator()
server.register(fastifyCookie)
server.register(fastifySession, { secret: 'secret with minimum length of 32 characters' })
// initialize @fastify/passport and connect it to the secure-session storage. Note: both of these plugins are mandatory.
server.register(fastifyPassport.initialize())
server.register(fastifyPassport.secureSession())
// register an example strategy for fastifyPassport to authenticate users using
fastifyPassport.use('test', new SomePassportStrategy()) // you'd probably use some passport strategy from npm here
Session cleanup on logIn
For security reasons the session is cleaned after login. You can manage this configuration at your own risk by using
clearSessionOnLogin (default: true)
and clearSessionIgnoreFields (default: ['passport', 'session'])
Difference between @fastify/secure-session
and @fastify/session
@fastify/secure-session
and @fastify/session
are both session plugins for Fastify which are capable of encrypting/decrypting the session. The main difference is that @fastify/secure-session
uses the stateless approach and stores the whole session in an encrypted cookie whereas @fastify/session
uses the stateful approach for sessions and stores them in a session store.
Session Serialization
In a typical web application, the credentials used to authenticate a user will only be transmitted once when a user logs in, and after, they are considered logged in because of some data stored in their session. @fastify/passport
implements this pattern by storing sessions using @fastify/secure-session
, and serializing/deserializing user objects to and from the session referenced by the cookie. @fastify/passport
cannot store rich object classes in the session, only JSON objects, so you must register a serializer / deserializer pair if you want to say fetch a User object from your database, and store only a user ID in the session.
// register a serializer that stores the user object's id in the session ...
fastifyPassport.registerUserSerializer(async (user, request) => user.id);
// ... and then a deserializer that will fetch that user from the database when a request with an id in the session arrives
fastifyPassport.registerUserDeserializer(async (id, request) => {
return await User.findById(id);
});
API
initialize()
A hook that must be added. Sets up a @fastify/passport
instance's hooks.
secureSession()
A hook that must be added. Sets up @fastify/passport
's connector with @fastify/secure-session
to store authentication in the session.
authenticate(strategy: string | Strategy | (string | Strategy)[], options: AuthenticateOptions, callback?: AuthenticateCallback)
Returns a hook that authenticates requests, in other words, validates users and then signs them in. authenticate
is intended for use as a preValidation
hook on a particular route like /login
.
Applies the given strategy (or strategies) to the incoming request, in order to authenticate the request. Strategies are usually registered ahead of time using .use
, and then passed to .authenticate
by name. If authentication is successful, the user will be logged in and populated at request.user
and a session will be established by default. If authentication fails, an unauthorized response will be sent.
Strategies or arrays of strategies can also be passed as instances. This is useful when using a temporary strategy you only intend to use once for one user and don't want to register into the global list of available strategies.
Options:
session
Save login state in session, defaults to truesuccessRedirect
After successful login, redirect to given URLsuccessMessage
True to store success message in req.session.messages, or a string to use as override message for success.successFlash
True to flash success messages or a string to use as a flash message for success (overrides any from the strategy itself).failureRedirect
After failed login, redirect to given URLfailureMessage
True to store failure message in req.session.messages, or a string to use as override message for failure.failureFlash
True to flash failure messages or a string to use as a flash message for failures (overrides any from the strategy itself).assignProperty
Assign the object provided by the verify callback to given propertystate
Pass any provided state through to the strategy (e.g. for Google Oauth)
An optional callback
can be supplied to allow the application to override the default manner in which authentication attempts are handled. The callback has the following signature:
(request, reply, err | null, user | false, info?, (status | statuses)?) => Promise<void>
where request
and reply
will be set to the original FastifyRequest
and FastifyReply
objects, and err
will be set to null
in case of a success or an Error
object in case of a failure. If err
is not null
then user
, info
and status
objects will be undefined
. The user
object will be set to the authenticated user on a successful authentication attempt, or false
otherwise.
An optional info
argument will be passed, containing additional details provided by the strategy's verify callback - this could be information about a successful authentication or a challenge message for a failed authentication.
An optional status
or statuses
argument will be passed when authentication fails - this could be a HTTP response code for a remote authentication failure or similar.
fastify.get(
'/',
{ preValidation: fastifyPassport.authenticate('test', { authInfo: false }) },
async (request, reply, err, user, info, status) => {
if (err !== null) {
console.warn(err)
} else if (user) {
console.log(`Hello ${user.name}!`)
}
}
)
Examples:
// create a request handler that uses the facebook strategy
fastifyPassport.use(new FacebookStrategy('facebook', {
// options for the facebook strategy, see https://www.npmjs.com/package/passport-facebook
})))
fastifyPassport.authenticate('facebook');
// create a request handler to test against the strategy named local, and automatically redirect when it succeeds or fails
fastifyPassport.authenticate('local', { successRedirect: '/', failureRedirect: '/login' });
// create a request handler that won't use any user information stored in the secure session
fastifyPassport.authenticate('basic', { session: false });
Note that if a callback is supplied, it becomes the application's responsibility to log-in the user, establish a session, and otherwise perform the desired operations.
Multiple Strategies
@fastify/passport
supports authenticating with a list of strategies, and will try each in order until one passes. Pass an array of strategy names to authenticate
for this:
// somewhere before several strategies are registered
fastifyPassport.use('bearer', new BearerTokenStrategy())
fastifyPassport.use('basic', new BasicAuthStrategy())
fastifyPassport.use('google', new FancyGoogleStrategy())
// and then an `authenticate` call can test incoming requests against multiple strategies
fastify.get(
'/',
{ preValidation: fastifyPassport.authenticate(['bearer', 'basic', 'google'], { authInfo: false }) },
async (request, reply, err, user, info, status) => {
if (err !== null) {
console.warn(err)
} else if (user) {
console.log(`Hello ${user.name}!`)
}
}
)
Note that multiple strategies that redirect to start an authentication flow, like OAuth2 strategies from major platforms, shouldn't really be used together in the same authenticate
call. This is because @fastify/passport
will run the strategies in order, and the first one that redirects will do so, preventing the user from ever using the other strategies. To set up multiple OAuth2 strategies, add several routes that each use a different strategy in their own authenticate
call, and then direct users to the right route for the strategy they pick.
Multiple strategies can also be passed as instances if you only intend to use them for that route handler or for that request.
// use an `authenticate` call can test incoming requests against multiple strategies without registering them for use elsewhere
fastify.get(
'/',
{
preValidation: fastifyPassport.authenticate([new BearerTokenStrategy(), new BasicAuthStrategy()], {
authInfo: false,
}),
},
async (request, reply, err, user, info, status) => {
if (err !== null) {
console.warn(err)
} else if (user) {
console.log(`Hello ${user.name}!`)
}
}
)
authorize(strategy: string | Strategy | (string | Strategy)[], options: AuthenticateOptions = {}, callback?: AuthenticateCallback)
Returns a hook that will authorize a third-party account using the given strategy
, with optional options
. Intended for use as a preValidation
hook on any route. .authorize
has the same API as .authenticate
, but has one key difference: it doesn't modify the logged in user's details. Instead, if authorization is successful, the result provided by the strategy's verify callback will be assigned to request.account
. The existing login session and request.user
will be unaffected.
This function is particularly useful when connecting third-party accounts to the local account of a user that is currently authenticated.
Examples:
fastifyPassport.authorize('twitter-authz', { failureRedirect: '/account' })
.authorize
allows the use of multiple strategies by passing an array of strategy names, and allows the use of already instantiated Strategy instances by passing the instance as the strategy, or an array of instances.
use(name?: string, strategy: Strategy)
Utilize the given strategy
with optional name
, overridding the strategy's default name.
Examples:
fastifyPassport.use(new TwitterStrategy(...));
fastifyPassport.use('api', new http.Strategy(...));
unuse(name: string)
Un-utilize the strategy
with given name
.
In typical applications, the necessary authentication strategies are static, configured once and always available. As such, there is often no need to invoke this function.
However, in certain situations, applications may need dynamically configure and de-configure authentication strategies. The use()
/unuse()
combination satisfies these scenarios.
Example:
fastifyPassport.unuse('legacy-api')
registerUserSerializer(serializer: (user, request) => Promise)
Registers an async user serializer function for taking a high level User object from your application and serializing it for storage into the session. @fastify/passport
cannot store rich object classes in the session, only JSON objects, so you must register a serializer / deserializer pair if you want to say fetch a User object from your database, and store only a user ID in the session.
// register a serializer that stores the user object's id in the session ...
fastifyPassport.registerUserSerializer(async (user, request) => user.id)
registerUserDeserializer(deserializer: (serializedUser, request) => Promise)
Registers an async user deserializer function for taking a low level serialized user object (often just a user ID) from a session, and deserializing it from storage into the request context. @fastify/passport
cannot store rich object classes in the session, only JSON objects, so you must register a serializer / deserializer pair if you want to say fetch a User object from your database, and store only a user ID in the session.
fastifyPassport.registerUserDeserializer(async (id, request) => {
return await User.findById(id);
});
Deserializers can throw the string "pass"
if they do not apply to the current session and the next deserializer should be tried. This is useful if you are using @fastify/passport
to store two different kinds of user objects. An example:
// register a deserializer for database users
fastifyPassport.registerUserDeserializer(async (id, request) => {
if (id.startsWith("db-")) {
return await User.findById(id);
} else {
throw "pass"
}
});
// register a deserializer for redis users
fastifyPassport.registerUserDeserializer(async (id, request) => {
if (id.startsWith("redis-")) {
return await redis.get(id);
} else {
throw "pass"
}
});
Sessions may specify serialized users that have since been deleted from the datastore storing them for the application. In that case, deserialization often fails because the user row cannot be found for a given id. Depending on the application, this can either be an error condition, or expected if users are deleted from the database while logged in. @fastify/passport
's behaviour in this case is configurable. Errors are thrown if a deserializer returns undefined, and the session is logged out if a deserializer returns null
or false.
This matches the behaviour of the original passport
module.
Therefore, a deserializer can return several things:
- if a deserializer returns an object, that object is assumed to be a successfully deserialized user
- if a deserializer returns
undefined
,@fastify/passport
interprets that as an erroneously missing user, and throws an error because the user could not be deserialized. - if a deserializer returns
null
orfalse
,@fastify/passport
interprets that as a missing but expected user, and resets the session to log the user out - if a deserializer throws the string
"pass"
,@fastify/passport
will try the next deserializer if it exists, or throw an error because the user could not be deserialized.
Request#isUnauthenticated()
Test if request is unauthenticated.
Using with TypeScript
@fastify/passport
is written in TypeScript, so it includes type definitions for all of it's API. You can also strongly type the FastifyRequest.user
property using TypeScript declaration merging. You must re-declare the PassportUser
interface in the fastify
module within your own code to add the properties you expect to be assigned by the strategy when authenticating:
declare module 'fastify' {
interface PassportUser {
id: string
}
}
or, if you already have a type for the objects returned from all of the strategies, you can make PassportUser
extend it:
import { User } from './my/types'
declare module 'fastify' {
interface PassportUser extends User {}
}
Using multiple instances
@fastify/passport
supports being registered multiple times in different plugin encapsulation contexts. This is useful to implement two separate authentication stacks. For example, you might have a set of strategies that authenticate users of your application, and a whole other set of strategies for authenticating staff members of your application that access an administration area. Users might be stored at request.user
, and administrators at request.admin
, and logging in as one should have no bearing on the other. It is important to register each instance of @fastify/passport
in a different Fastify plugin context so that the decorators @fastify/passport
like request.logIn
and request.logOut
do not collide.
To register @fastify/passport more than once, you must instantiate more copies with different keys
and userProperty
s so they do not collide when decorating your fastify instance or storing things in the session.
import { Authenticator } from '@fastify/passport'
const server = fastify()
// setup an Authenticator instance for users that stores the login result at `request.user`
const userPassport = new Authenticator({ key: 'users', userProperty: 'user' })
userPassport.use('some-strategy', new CoolOAuthStrategy('some-strategy'))
server.register(userPassport.initialize())
server.register(userPassport.secureSession())
// setup an Authenticator instance for users that stores the login result at `request.admin`
const adminPassport = new Authenticator({ key: 'admin', userProperty: 'admin' })
adminPassport.use('admin-google', new GoogleOAuth2Strategy('admin-google'))
server.register(adminPassport.initialize())
server.register(adminPassport.secureSession())
// protect some routes with the userPassport
server.get(
`/`,
{ preValidation: userPassport.authenticate('some-strategy') },
async () => `hello ${JSON.serialize(request.user)}!`
)
// and protect others with the adminPassport
server.get(
`/admin`,
{ preValidation: adminPassport.authenticate('admin-google') },
async () => `hello administrator ${JSON.serialize(request.admin)}!`
)
Note: Each Authenticator
instance's initialize plugin and session plugin must be registered separately.
It is important to note that using multiple @fastify/passport
instances is not necessary if you want to use multiple strategies to login the same type of user. @fastify/passport
supports multiple strategies by passing an array to any .authenticate
call.
Differences from Passport.js
@fastify/passport
is an adapted version of Passport that tries to be as compatible as possible, but is an adapted version that has some incompatibilities. Passport strategies that adhere to the passport strategy API should work fine, but there are some differences in other APIs made to integrate better with Fastify and to stick with Fastify's theme of performance.
Differences:
serializeUser
renamed toregisterUserSerializer
and always takes an async function with the signature(user: User, request: FastifyRequest) => Promise<SerializedUser>
deserializeUser
renamed toregisterUserDeserializer
and always takes an async function with the signature(serialized: SerializedUser, request: FastifyRequest) => Promise<User>
transformAuthInfo
renamed toregisterAuthInfoTransformer
and always takes an async function with the signature(info: any, request: FastifyRequest) => Promise<any>
.authenticate
and.authorize
accept strategy instances in addition to strategy names. This allows for using one time strategy instances (say for testing given user credentials) without adding them to the global list of registered strategies.