By default, register creates a new scope, this means that if you make some changes to the Fastify instance (via decorate), this change will not be reflected by the current context ancestors, but only to its sons. This feature allows us to achieve plugin encapsulation and inheritance, in this way we create a direct acyclic graph (DAG) and we will not have issues caused by cross dependencies.

    You already see in the section how using this API is pretty straightforward.

    The optional options parameter for fastify.register supports a predefined set of options that Fastify itself will use, except when the plugin has been wrapped with fastify-plugin. This options object will also be passed to the plugin upon invocation, regardless of whether or not the plugin has been wrapped. The currently supported list of Fastify specific options is:

    Note: Those options will be ignored when used with fastify-plugin

    It is possible that Fastify will directly support other options in the future. Thus, to avoid collisions, a plugin should consider namespacing its options. For example, a plugin foo might be registered like so:

    1. fastify.register(require('fastify-foo'), {
    2. prefix: '/foo',
    3. foo: {
    4. fooOption1: 'value',
    5. fooOption2: 'value'
    6. }
    7. })

    If collisions are not a concern, the plugin may simply accept the options object as-is:

    1. fastify.register(require('fastify-foo'), {
    2. prefix: '/foo',
    3. fooOption1: 'value',
    4. fooOption2: 'value'
    5. })

    The Fastify instance passed on to the function is the latest state of the external Fastify instance the plugin was declared on, allowing access to variables injected via decorate by preceding plugins according to the order of registration. This is useful in case a plugin depends on changes made to the Fastify instance by a preceding plugin i.e. utilizing an existing database connection to wrap around it.

    Keep in mind that the Fastify instance passed on to the function is the same as the one that will be passed into the plugin, a copy of the external Fastify instance rather than a reference. Any usage of the instance will behave the same as it would if called within the plugins function i.e. if decorate is called, the decorated variables will be available within the plugins function unless it was wrapped with .

    Route Prefixing option

    If you pass an option with the key prefix with a string value, Fastify will use it to prefix all the routes inside the register, for more info check .
    Be aware that if you use fastify-plugin this option will not work.

    Error handling

    The error handling is done by avvio.
    As a general rule, it is highly recommended that you handle your errors in the next after or ready block, otherwise you will get them inside the listen callback.

    1. // `after` will be executed once
    2. // the previous declared `register` has finished
    3. fastify.after(err => console.log(err))
    4. // `ready` will be executed once all the registers declared
    5. // have finished their execution
    6. fastify.ready(err => console.log(err))
    7. // `listen` is a special ready,
    8. // so it behaves in the same way
    9. fastify.listen(3000, (err, address) => {
    10. if (err) console.log(err)
    11. })

    async/await is supported by after, ready and listen, as well as fastify being a .

    1. await fastify.register(require('my-plugin'))
    2. await fastify.after()
    3. await fastify.ready()
    4. await fastify.listen(3000)

    ESM support

    ESM is supported as well from and above!

    1. module.exports = function (fastify, opts, done) {
    2. fastify.get('/', handler)
    3. done()
    4. }

    You can also use register inside another register:

    1. module.exports = function (fastify, opts, done) {
    2. fastify.decorate('utility', () => {})
    3. fastify.get('/', handler)
    4. fastify.register(require('./other-plugin'))
    5. done()
    6. }

    Sometimes, you will need to know when the server is about to close, for example, because you must close a connection to a database. To know when this is going to happen, you can use the 'onClose' hook.

    Do not forget that register will always create a new Fastify scope, if you do not need that, read the following section.

    If you are using register only for extending the functionality of the server with , it is your responsibility to tell Fastify not to create a new scope. Otherwise, your changes will not be accessible by the user in the upper scope.

    You have two ways to tell Fastify to avoid the creation of a new context:

    We recommend using the fastify-plugin module, because it solves this problem for you, and you can pass a version range of Fastify as a parameter that your plugin will support.

    If you do not use the fastify-plugin module, you can use the 'skip-override' hidden property, but we do not recommend it. If in the future the Fastify API changes it will be your responsibility to update the module, while if you use fastify-plugin, you can be sure about backward compatibility.

    1. function yourPlugin (fastify, opts, done) {
    2. fastify.decorate('utility', () => {})
    3. done()
    4. }
    5. yourPlugin[Symbol.for('skip-override')] = true