**DO NOT READ THIS FILE ON GITHUB, GUIDES ARE PUBLISHED ON https://guides.rubyonrails.org.** Rails Routing from the Outside In ================================= This guide covers the user-facing features of Rails routing. After reading this guide, you will know: * How to interpret the code in `config/routes.rb`. * How to construct your own routes, using either the preferred resourceful style or the `match` method. * How to declare route parameters, which are passed onto controller actions. * How to automatically create paths and URLs using route helpers. * Advanced techniques such as creating constraints and mounting Rack endpoints. -------------------------------------------------------------------------------- The Purpose of the Rails Router ------------------------------- The Rails router recognizes URLs and dispatches them to a controller's action, or to a Rack application. It can also generate paths and URLs, avoiding the need to hardcode strings in your views. ### Connecting URLs to Code When your Rails application receives an incoming request for: ``` GET /patients/17 ``` it asks the router to match it to a controller action. If the first matching route is: ```ruby get '/patients/:id', to: 'patients#show' ``` the request is dispatched to the `patients` controller's `show` action with `{ id: '17' }` in `params`. NOTE: Rails uses snake_case for controller names here, if you have a multiple word controller like `MonsterTrucksController`, you want to use `monster_trucks#show` for example. ### Generating Paths and URLs from Code You can also generate paths and URLs. If the route above is modified to be: ```ruby get '/patients/:id', to: 'patients#show', as: 'patient' ``` and your application contains this code in the controller: ```ruby @patient = Patient.find(params[:id]) ``` and this in the corresponding view: ```erb <%= link_to 'Patient Record', patient_path(@patient) %> ``` then the router will generate the path `/patients/17`. This reduces the brittleness of your view and makes your code easier to understand. Note that the id does not need to be specified in the route helper. ### Configuring the Rails Router The routes for your application or engine live in the file `config/routes.rb` and typically looks like this: ```ruby Rails.application.routes.draw do resources :brands, only: [:index, :show] do resources :products, only: [:index, :show] end resource :basket, only: [:show, :update, :destroy] resolve("Basket") { route_for(:basket) } end ``` Since this is a regular Ruby source file you can use all of its features to help you define your routes but be careful with variable names as they can clash with the DSL methods of the router. NOTE: The `Rails.application.routes.draw do ... end` block that wraps your route definitions is required to establish the scope for the router DSL and must not be deleted. Resource Routing: the Rails Default ----------------------------------- Resource routing allows you to quickly declare all of the common routes for a given resourceful controller. Instead of declaring separate routes for your `index`, `show`, `new`, `edit`, `create`, `update` and `destroy` actions, a resourceful route declares them in a single line of code. ### Resources on the Web Browsers request pages from Rails by making a request for a URL using a specific HTTP method, such as `GET`, `POST`, `PATCH`, `PUT` and `DELETE`. Each method is a request to perform an operation on the resource. A resource route maps a number of related requests to actions in a single controller. When your Rails application receives an incoming request for: ``` DELETE /photos/17 ``` it asks the router to map it to a controller action. If the first matching route is: ```ruby resources :photos ``` Rails would dispatch that request to the `destroy` action on the `photos` controller with `{ id: '17' }` in `params`. ### CRUD, Verbs, and Actions In Rails, a resourceful route provides a mapping between HTTP verbs and URLs to controller actions. By convention, each action also maps to a specific CRUD operation in a database. A single entry in the routing file, such as: ```ruby resources :photos ``` creates seven different routes in your application, all mapping to the `Photos` controller: | HTTP Verb | Path | Controller#Action | Used for | | --------- | ---------------- | ----------------- | -------------------------------------------- | | GET | /photos | photos#index | display a list of all photos | | GET | /photos/new | photos#new | return an HTML form for creating a new photo | | POST | /photos | photos#create | create a new photo | | GET | /photos/:id | photos#show | display a specific photo | | GET | /photos/:id/edit | photos#edit | return an HTML form for editing a photo | | PATCH/PUT | /photos/:id | photos#update | update a specific photo | | DELETE | /photos/:id | photos#destroy | delete a specific photo | NOTE: Because the router uses the HTTP verb and URL to match inbound requests, four URLs map to seven different actions. NOTE: Rails routes are matched in the order they are specified, so if you have a `resources :photos` above a `get 'photos/poll'` the `show` action's route for the `resources` line will be matched before the `get` line. To fix this, move the `get` line **above** the `resources` line so that it is matched first. ### Path and URL Helpers Creating a resourceful route will also expose a number of helpers to the controllers in your application. In the case of `resources :photos`: * `photos_path` returns `/photos` * `new_photo_path` returns `/photos/new` * `edit_photo_path(:id)` returns `/photos/:id/edit` (for instance, `edit_photo_path(10)` returns `/photos/10/edit`) * `photo_path(:id)` returns `/photos/:id` (for instance, `photo_path(10)` returns `/photos/10`) Each of these helpers has a corresponding `_url` helper (such as `photos_url`) which returns the same path prefixed with the current host, port, and path prefix. ### Defining Multiple Resources at the Same Time If you need to create routes for more than one resource, you can save a bit of typing by defining them all with a single call to `resources`: ```ruby resources :photos, :books, :videos ``` This works exactly the same as: ```ruby resources :photos resources :books resources :videos ``` ### Singular Resources Sometimes, you have a resource that clients always look up without referencing an ID. For example, you would like `/profile` to always show the profile of the currently logged in user. In this case, you can use a singular resource to map `/profile` (rather than `/profile/:id`) to the `show` action: ```ruby get 'profile', to: 'users#show' ``` Passing a `String` to `to:` will expect a `controller#action` format. When using a `Symbol`, the `to:` option should be replaced with `action:`. When using a `String` without a `#`, the `to:` option should be replaced with `controller:`: ```ruby get 'profile', action: :show, controller: 'users' ``` This resourceful route: ```ruby resource :geocoder resolve('Geocoder') { [:geocoder] } ``` creates six different routes in your application, all mapping to the `Geocoders` controller: | HTTP Verb | Path | Controller#Action | Used for | | --------- | -------------- | ----------------- | --------------------------------------------- | | GET | /geocoder/new | geocoders#new | return an HTML form for creating the geocoder | | POST | /geocoder | geocoders#create | create the new geocoder | | GET | /geocoder | geocoders#show | display the one and only geocoder resource | | GET | /geocoder/edit | geocoders#edit | return an HTML form for editing the geocoder | | PATCH/PUT | /geocoder | geocoders#update | update the one and only geocoder resource | | DELETE | /geocoder | geocoders#destroy | delete the geocoder resource | NOTE: Because you might want to use the same controller for a singular route (`/account`) and a plural route (`/accounts/45`), singular resources map to plural controllers. So that, for example, `resource :photo` and `resources :photos` creates both singular and plural routes that map to the same controller (`PhotosController`). A singular resourceful route generates these helpers: * `new_geocoder_path` returns `/geocoder/new` * `edit_geocoder_path` returns `/geocoder/edit` * `geocoder_path` returns `/geocoder` As with plural resources, the same helpers ending in `_url` will also include the host, port, and path prefix. ### Controller Namespaces and Routing You may wish to organize groups of controllers under a namespace. Most commonly, you might group a number of administrative controllers under an `Admin::` namespace. You would place these controllers under the `app/controllers/admin` directory, and you can group them together in your router: ```ruby namespace :admin do resources :articles, :comments end ``` This will create a number of routes for each of the `articles` and `comments` controller. For `Admin::ArticlesController`, Rails will create: | HTTP Verb | Path | Controller#Action | Named Route Helper | | --------- | ------------------------ | ---------------------- | ---------------------------- | | GET | /admin/articles | admin/articles#index | admin_articles_path | | GET | /admin/articles/new | admin/articles#new | new_admin_article_path | | POST | /admin/articles | admin/articles#create | admin_articles_path | | GET | /admin/articles/:id | admin/articles#show | admin_article_path(:id) | | GET | /admin/articles/:id/edit | admin/articles#edit | edit_admin_article_path(:id) | | PATCH/PUT | /admin/articles/:id | admin/articles#update | admin_article_path(:id) | | DELETE | /admin/articles/:id | admin/articles#destroy | admin_article_path(:id) | If you want to route `/articles` (without the prefix `/admin`) to `Admin::ArticlesController`, you could use: ```ruby scope module: 'admin' do resources :articles, :comments end ``` or, for a single case: ```ruby resources :articles, module: 'admin' ``` If you want to route `/admin/articles` to `ArticlesController` (without the `Admin::` module prefix), you could use: ```ruby scope '/admin' do resources :articles, :comments end ``` or, for a single case: ```ruby resources :articles, path: '/admin/articles' ``` In each of these cases, the named routes remain the same as if you did not use `scope`. In the last case, the following paths map to `ArticlesController`: | HTTP Verb | Path | Controller#Action | Named Route Helper | | --------- | ------------------------ | -------------------- | ---------------------- | | GET | /admin/articles | articles#index | articles_path | | GET | /admin/articles/new | articles#new | new_article_path | | POST | /admin/articles | articles#create | articles_path | | GET | /admin/articles/:id | articles#show | article_path(:id) | | GET | /admin/articles/:id/edit | articles#edit | edit_article_path(:id) | | PATCH/PUT | /admin/articles/:id | articles#update | article_path(:id) | | DELETE | /admin/articles/:id | articles#destroy | article_path(:id) | TIP: _If you need to use a different controller namespace inside a `namespace` block you can specify an absolute controller path, e.g: `get '/foo', to: '/foo#index'`._ ### Nested Resources It's common to have resources that are logically children of other resources. For example, suppose your application includes these models: ```ruby class Magazine < ApplicationRecord has_many :ads end class Ad < ApplicationRecord belongs_to :magazine end ``` Nested routes allow you to capture this relationship in your routing. In this case, you could include this route declaration: ```ruby resources :magazines do resources :ads end ``` In addition to the routes for magazines, this declaration will also route ads to an `AdsController`. The ad URLs require a magazine: | HTTP Verb | Path | Controller#Action | Used for | | --------- | ------------------------------------ | ----------------- | -------------------------------------------------------------------------- | | GET | /magazines/:magazine_id/ads | ads#index | display a list of all ads for a specific magazine | | GET | /magazines/:magazine_id/ads/new | ads#new | return an HTML form for creating a new ad belonging to a specific magazine | | POST | /magazines/:magazine_id/ads | ads#create | create a new ad belonging to a specific magazine | | GET | /magazines/:magazine_id/ads/:id | ads#show | display a specific ad belonging to a specific magazine | | GET | /magazines/:magazine_id/ads/:id/edit | ads#edit | return an HTML form for editing an ad belonging to a specific magazine | | PATCH/PUT | /magazines/:magazine_id/ads/:id | ads#update | update a specific ad belonging to a specific magazine | | DELETE | /magazines/:magazine_id/ads/:id | ads#destroy | delete a specific ad belonging to a specific magazine | This will also create routing helpers such as `magazine_ads_url` and `edit_magazine_ad_path`. These helpers take an instance of Magazine as the first parameter (`magazine_ads_url(@magazine)`). #### Limits to Nesting You can nest resources within other nested resources if you like. For example: ```ruby resources :publishers do resources :magazines do resources :photos end end ``` Deeply-nested resources quickly become cumbersome. In this case, for example, the application would recognize paths such as: ``` /publishers/1/magazines/2/photos/3 ``` The corresponding route helper would be `publisher_magazine_photo_url`, requiring you to specify objects at all three levels. Indeed, this situation is confusing enough that a popular [article](http://weblog.jamisbuck.org/2007/2/5/nesting-resources) by Jamis Buck proposes a rule of thumb for good Rails design: TIP: _Resources should never be nested more than 1 level deep._ #### Shallow Nesting One way to avoid deep nesting (as recommended above) is to generate the collection actions scoped under the parent, so as to get a sense of the hierarchy, but to not nest the member actions. In other words, to only build routes with the minimal amount of information to uniquely identify the resource, like this: ```ruby resources :articles do resources :comments, only: [:index, :new, :create] end resources :comments, only: [:show, :edit, :update, :destroy] ``` This idea strikes a balance between descriptive routes and deep nesting. There exists shorthand syntax to achieve just that, via the `:shallow` option: ```ruby resources :articles do resources :comments, shallow: true end ``` This will generate the exact same routes as the first example. You can also specify the `:shallow` option in the parent resource, in which case all of the nested resources will be shallow: ```ruby resources :articles, shallow: true do resources :comments resources :quotes resources :drafts end ``` The `shallow` method of the DSL creates a scope inside of which every nesting is shallow. This generates the same routes as the previous example: ```ruby shallow do resources :articles do resources :comments resources :quotes resources :drafts end end ``` There exist two options for `scope` to customize shallow routes. `:shallow_path` prefixes member paths with the specified parameter: ```ruby scope shallow_path: "sekret" do resources :articles do resources :comments, shallow: true end end ``` The comments resource here will have the following routes generated for it: | HTTP Verb | Path | Controller#Action | Named Route Helper | | --------- | -------------------------------------------- | ----------------- | ------------------------ | | GET | /articles/:article_id/comments(.:format) | comments#index | article_comments_path | | POST | /articles/:article_id/comments(.:format) | comments#create | article_comments_path | | GET | /articles/:article_id/comments/new(.:format) | comments#new | new_article_comment_path | | GET | /sekret/comments/:id/edit(.:format) | comments#edit | edit_comment_path | | GET | /sekret/comments/:id(.:format) | comments#show | comment_path | | PATCH/PUT | /sekret/comments/:id(.:format) | comments#update | comment_path | | DELETE | /sekret/comments/:id(.:format) | comments#destroy | comment_path | The `:shallow_prefix` option adds the specified parameter to the named route helpers: ```ruby scope shallow_prefix: "sekret" do resources :articles do resources :comments, shallow: true end end ``` The comments resource here will have the following routes generated for it: | HTTP Verb | Path | Controller#Action | Named Route Helper | | --------- | -------------------------------------------- | ----------------- | --------------------------- | | GET | /articles/:article_id/comments(.:format) | comments#index | article_comments_path | | POST | /articles/:article_id/comments(.:format) | comments#create | article_comments_path | | GET | /articles/:article_id/comments/new(.:format) | comments#new | new_article_comment_path | | GET | /comments/:id/edit(.:format) | comments#edit | edit_sekret_comment_path | | GET | /comments/:id(.:format) | comments#show | sekret_comment_path | | PATCH/PUT | /comments/:id(.:format) | comments#update | sekret_comment_path | | DELETE | /comments/:id(.:format) | comments#destroy | sekret_comment_path | ### Routing Concerns Routing concerns allow you to declare common routes that can be reused inside other resources and routes. To define a concern: ```ruby concern :commentable do resources :comments end concern :image_attachable do resources :images, only: :index end ``` These concerns can be used in resources to avoid code duplication and share behavior across routes: ```ruby resources :messages, concerns: :commentable resources :articles, concerns: [:commentable, :image_attachable] ``` The above is equivalent to: ```ruby resources :messages do resources :comments end resources :articles do resources :comments resources :images, only: :index end ``` Also you can use them in any place that you want inside the routes, for example in a `scope` or `namespace` call: ```ruby namespace :articles do concerns :commentable end ``` ### Creating Paths and URLs from Objects In addition to using the routing helpers, Rails can also create paths and URLs from an array of parameters. For example, suppose you have this set of routes: ```ruby resources :magazines do resources :ads end ``` When using `magazine_ad_path`, you can pass in instances of `Magazine` and `Ad` instead of the numeric IDs: ```erb <%= link_to 'Ad details', magazine_ad_path(@magazine, @ad) %> ``` You can also use `url_for` with a set of objects, and Rails will automatically determine which route you want: ```erb <%= link_to 'Ad details', url_for([@magazine, @ad]) %> ``` In this case, Rails will see that `@magazine` is a `Magazine` and `@ad` is an `Ad` and will therefore use the `magazine_ad_path` helper. In helpers like `link_to`, you can specify just the object in place of the full `url_for` call: ```erb <%= link_to 'Ad details', [@magazine, @ad] %> ``` If you wanted to link to just a magazine: ```erb <%= link_to 'Magazine details', @magazine %> ``` For other actions, you just need to insert the action name as the first element of the array: ```erb <%= link_to 'Edit Ad', [:edit, @magazine, @ad] %> ``` This allows you to treat instances of your models as URLs, and is a key advantage to using the resourceful style. ### Adding More RESTful Actions You are not limited to the seven routes that RESTful routing creates by default. If you like, you may add additional routes that apply to the collection or individual members of the collection. #### Adding Member Routes To add a member route, just add a `member` block into the resource block: ```ruby resources :photos do member do get 'preview' end end ``` This will recognize `/photos/1/preview` with GET, and route to the `preview` action of `PhotosController`, with the resource id value passed in `params[:id]`. It will also create the `preview_photo_url` and `preview_photo_path` helpers. Within the block of member routes, each route name specifies the HTTP verb that will be recognized. You can use `get`, `patch`, `put`, `post`, or `delete` here . If you don't have multiple `member` routes, you can also pass `:on` to a route, eliminating the block: ```ruby resources :photos do get 'preview', on: :member end ``` You can leave out the `:on` option, this will create the same member route except that the resource id value will be available in `params[:photo_id]` instead of `params[:id]`. Route helpers will also be renamed from `preview_photo_url` and `preview_photo_path` to `photo_preview_url` and `photo_preview_path`. #### Adding Collection Routes To add a route to the collection: ```ruby resources :photos do collection do get 'search' end end ``` This will enable Rails to recognize paths such as `/photos/search` with GET, and route to the `search` action of `PhotosController`. It will also create the `search_photos_url` and `search_photos_path` route helpers. Just as with member routes, you can pass `:on` to a route: ```ruby resources :photos do get 'search', on: :collection end ``` NOTE: If you're defining additional resource routes with a symbol as the first positional argument, be mindful that it is not equivalent to using a string. Symbols infer controller actions while strings infer paths. #### Adding Routes for Additional New Actions To add an alternate new action using the `:on` shortcut: ```ruby resources :comments do get 'preview', on: :new end ``` This will enable Rails to recognize paths such as `/comments/new/preview` with GET, and route to the `preview` action of `CommentsController`. It will also create the `preview_new_comment_url` and `preview_new_comment_path` route helpers. TIP: If you find yourself adding many extra actions to a resourceful route, it's time to stop and ask yourself whether you're disguising the presence of another resource. Non-Resourceful Routes ---------------------- In addition to resource routing, Rails has powerful support for routing arbitrary URLs to actions. Here, you don't get groups of routes automatically generated by resourceful routing. Instead, you set up each route separately within your application. While you should usually use resourceful routing, there are still many places where the simpler routing is more appropriate. There's no need to try to shoehorn every last piece of your application into a resourceful framework if that's not a good fit. In particular, simple routing makes it very easy to map legacy URLs to new Rails actions. ### Bound Parameters When you set up a regular route, you supply a series of symbols that Rails maps to parts of an incoming HTTP request. For example, consider this route: ```ruby get 'photos(/:id)', to: 'photos#display' ``` If an incoming request of `/photos/1` is processed by this route (because it hasn't matched any previous route in the file), then the result will be to invoke the `display` action of the `PhotosController`, and to make the final parameter `"1"` available as `params[:id]`. This route will also route the incoming request of `/photos` to `PhotosController#display`, since `:id` is an optional parameter, denoted by parentheses. ### Dynamic Segments You can set up as many dynamic segments within a regular route as you like. Any segment will be available to the action as part of `params`. If you set up this route: ```ruby get 'photos/:id/:user_id', to: 'photos#show' ``` An incoming path of `/photos/1/2` will be dispatched to the `show` action of the `PhotosController`. `params[:id]` will be `"1"`, and `params[:user_id]` will be `"2"`. TIP: By default, dynamic segments don't accept dots - this is because the dot is used as a separator for formatted routes. If you need to use a dot within a dynamic segment, add a constraint that overrides this – for example, `id: /[^\/]+/` allows anything except a slash. ### Static Segments You can specify static segments when creating a route by not prepending a colon to a segment: ```ruby get 'photos/:id/with_user/:user_id', to: 'photos#show' ``` This route would respond to paths such as `/photos/1/with_user/2`. In this case, `params` would be `{ controller: 'photos', action: 'show', id: '1', user_id: '2' }`. ### The Query String The `params` will also include any parameters from the query string. For example, with this route: ```ruby get 'photos/:id', to: 'photos#show' ``` An incoming path of `/photos/1?user_id=2` will be dispatched to the `show` action of the `Photos` controller. `params` will be `{ controller: 'photos', action: 'show', id: '1', user_id: '2' }`. ### Defining Defaults You can define defaults in a route by supplying a hash for the `:defaults` option. This even applies to parameters that you do not specify as dynamic segments. For example: ```ruby get 'photos/:id', to: 'photos#show', defaults: { format: 'jpg' } ``` Rails would match `photos/12` to the `show` action of `PhotosController`, and set `params[:format]` to `"jpg"`. You can also use `defaults` in a block format to define the defaults for multiple items: ```ruby defaults format: :json do resources :photos end ``` NOTE: You cannot override defaults via query parameters - this is for security reasons. The only defaults that can be overridden are dynamic segments via substitution in the URL path. ### Naming Routes You can specify a name for any route using the `:as` option: ```ruby get 'exit', to: 'sessions#destroy', as: :logout ``` This will create `logout_path` and `logout_url` as named route helpers in your application. Calling `logout_path` will return `/exit` You can also use this to override routing methods defined by resources by placing custom routes before the resource is defined, like this: ```ruby get ':username', to: 'users#show', as: :user resources :users ``` This will define a `user_path` method that will be available in controllers, helpers, and views that will go to a route such as `/bob`. Inside the `show` action of `UsersController`, `params[:username]` will contain the username for the user. Change `:username` in the route definition if you do not want your parameter name to be `:username`. ### HTTP Verb Constraints In general, you should use the `get`, `post`, `put`, `patch` and `delete` methods to constrain a route to a particular verb. You can use the `match` method with the `:via` option to match multiple verbs at once: ```ruby match 'photos', to: 'photos#show', via: [:get, :post] ``` You can match all verbs to a particular route using `via: :all`: ```ruby match 'photos', to: 'photos#show', via: :all ``` NOTE: Routing both `GET` and `POST` requests to a single action has security implications. In general, you should avoid routing all verbs to an action unless you have a good reason to. NOTE: `GET` in Rails won't check for CSRF token. You should never write to the database from `GET` requests, for more information see the [security guide](security.html#csrf-countermeasures) on CSRF countermeasures. ### Segment Constraints You can use the `:constraints` option to enforce a format for a dynamic segment: ```ruby get 'photos/:id', to: 'photos#show', constraints: { id: /[A-Z]\d{5}/ } ``` This route would match paths such as `/photos/A12345`, but not `/photos/893`. You can more succinctly express the same route this way: ```ruby get 'photos/:id', to: 'photos#show', id: /[A-Z]\d{5}/ ``` `:constraints` takes regular expressions with the restriction that regexp anchors can't be used. For example, the following route will not work: ```ruby get '/:id', to: 'articles#show', constraints: { id: /^\d/ } ``` However, note that you don't need to use anchors because all routes are anchored at the start and the end. For example, the following routes would allow for `articles` with `to_param` values like `1-hello-world` that always begin with a number and `users` with `to_param` values like `david` that never begin with a number to share the root namespace: ```ruby get '/:id', to: 'articles#show', constraints: { id: /\d.+/ } get '/:username', to: 'users#show' ``` ### Request-Based Constraints You can also constrain a route based on any method on the [Request object](action_controller_overview.html#the-request-object) that returns a `String`. You specify a request-based constraint the same way that you specify a segment constraint: ```ruby get 'photos', to: 'photos#index', constraints: { subdomain: 'admin' } ``` You can also specify constraints in a block form: ```ruby namespace :admin do constraints subdomain: 'admin' do resources :photos end end ``` NOTE: Request constraints work by calling a method on the [Request object](action_controller_overview.html#the-request-object) with the same name as the hash key and then comparing the return value with the hash value. Therefore, constraint values should match the corresponding Request object method return type. For example: `constraints: { subdomain: 'api' }` will match an `api` subdomain as expected. However, using a symbol `constraints: { subdomain: :api }` will not, because `request.subdomain` returns `'api'` as a String. NOTE: There is an exception for the `format` constraint: while it's a method on the Request object, it's also an implicit optional parameter on every path. Segment constraints take precedence and the `format` constraint is only applied as such when enforced through a hash. For example, `get 'foo', constraints: { format: 'json' }` will match `GET /foo` because the format is optional by default. However, you can [use a lambda](#advanced-constraints) like in `get 'foo', constraints: lambda { |req| req.format == :json }` and the route will only match explicit JSON requests. ### Advanced Constraints If you have a more advanced constraint, you can provide an object that responds to `matches?` that Rails should use. Let's say you wanted to route all users on a restricted list to the `RestrictedListController`. You could do: ```ruby class RestrictedListConstraint def initialize @ips = RestrictedList.retrieve_ips end def matches?(request) @ips.include?(request.remote_ip) end end Rails.application.routes.draw do get '*path', to: 'restricted_list#index', constraints: RestrictedListConstraint.new end ``` You can also specify constraints as a lambda: ```ruby Rails.application.routes.draw do get '*path', to: 'restricted_list#index', constraints: lambda { |request| RestrictedList.retrieve_ips.include?(request.remote_ip) } end ``` Both the `matches?` method and the lambda gets the `request` object as an argument. #### Constraints in a block form You can specify constraints in a block form. This is useful for when you need to apply the same rule to several routes. For example ``` class RestrictedListConstraint # ...Same as the example above end Rails.application.routes.draw do constraints(RestrictedListConstraint.new) do get '*path', to: 'restricted_list#index', get '*other-path', to: 'other_restricted_list#index', end end ``` You also use a `lambda`: ``` Rails.application.routes.draw do constraints(lambda { |request| RestrictedList.retrieve_ips.include?(request.remote_ip) }) do get '*path', to: 'restricted_list#index', get '*other-path', to: 'other_restricted_list#index', end end ``` ### Route Globbing and Wildcard Segments Route globbing is a way to specify that a particular parameter should be matched to all the remaining parts of a route. For example: ```ruby get 'photos/*other', to: 'photos#unknown' ``` This route would match `photos/12` or `/photos/long/path/to/12`, setting `params[:other]` to `"12"` or `"long/path/to/12"`. The segments prefixed with a star are called "wildcard segments". Wildcard segments can occur anywhere in a route. For example: ```ruby get 'books/*section/:title', to: 'books#show' ``` would match `books/some/section/last-words-a-memoir` with `params[:section]` equals `'some/section'`, and `params[:title]` equals `'last-words-a-memoir'`. Technically, a route can have even more than one wildcard segment. The matcher assigns segments to parameters in an intuitive way. For example: ```ruby get '*a/foo/*b', to: 'test#index' ``` would match `zoo/woo/foo/bar/baz` with `params[:a]` equals `'zoo/woo'`, and `params[:b]` equals `'bar/baz'`. NOTE: By requesting `'/foo/bar.json'`, your `params[:pages]` will be equal to `'foo/bar'` with the request format of JSON. If you want the old 3.0.x behavior back, you could supply `format: false` like this: ```ruby get '*pages', to: 'pages#show', format: false ``` NOTE: If you want to make the format segment mandatory, so it cannot be omitted, you can supply `format: true` like this: ```ruby get '*pages', to: 'pages#show', format: true ``` ### Redirection You can redirect any path to another path using the `redirect` helper in your router: ```ruby get '/stories', to: redirect('/articles') ``` You can also reuse dynamic segments from the match in the path to redirect to: ```ruby get '/stories/:name', to: redirect('/articles/%{name}') ``` You can also provide a block to redirect, which receives the symbolized path parameters and the request object: ```ruby get '/stories/:name', to: redirect { |path_params, req| "/articles/#{path_params[:name].pluralize}" } get '/stories', to: redirect { |path_params, req| "/articles/#{req.subdomain}" } ``` Please note that default redirection is a 301 "Moved Permanently" redirect. Keep in mind that some web browsers or proxy servers will cache this type of redirect, making the old page inaccessible. You can use the `:status` option to change the response status: ```ruby get '/stories/:name', to: redirect('/articles/%{name}', status: 302) ``` In all of these cases, if you don't provide the leading host (`http://www.example.com`), Rails will take those details from the current request. ### Routing to Rack Applications Instead of a String like `'articles#index'`, which corresponds to the `index` action in the `ArticlesController`, you can specify any [Rack application](rails_on_rack.html) as the endpoint for a matcher: ```ruby match '/application.js', to: MyRackApp, via: :all ``` As long as `MyRackApp` responds to `call` and returns a `[status, headers, body]`, the router won't know the difference between the Rack application and an action. This is an appropriate use of `via: :all`, as you will want to allow your Rack application to handle all verbs as it considers appropriate. NOTE: For the curious, `'articles#index'` actually expands out to `ArticlesController.action(:index)`, which returns a valid Rack application. If you specify a Rack application as the endpoint for a matcher, remember that the route will be unchanged in the receiving application. With the following route your Rack application should expect the route to be `/admin`: ```ruby match '/admin', to: AdminApp, via: :all ``` If you would prefer to have your Rack application receive requests at the root path instead, use `mount`: ```ruby mount AdminApp, at: '/admin' ``` ### Using `root` You can specify what Rails should route `'/'` to with the `root` method: ```ruby root to: 'pages#main' root 'pages#main' # shortcut for the above ``` You should put the `root` route at the top of the file, because it is the most popular route and should be matched first. NOTE: The `root` route only routes `GET` requests to the action. You can also use root inside namespaces and scopes as well. For example: ```ruby namespace :admin do root to: "admin#index" end root to: "home#index" ``` ### Unicode Character Routes You can specify unicode character routes directly. For example: ```ruby get 'こんにちは', to: 'welcome#index' ``` ### Direct Routes You can create custom URL helpers directly. For example: ```ruby direct :homepage do "http://www.rubyonrails.org" end # >> homepage_url # => "http://www.rubyonrails.org" ``` The return value of the block must be a valid argument for the `url_for` method. So, you can pass a valid string URL, Hash, Array, an Active Model instance, or an Active Model class. ```ruby direct :commentable do |model| [ model, anchor: model.dom_id ] end direct :main do { controller: 'pages', action: 'index', subdomain: 'www' } end ``` ### Using `resolve` The `resolve` method allows customizing polymorphic mapping of models. For example: ``` ruby resource :basket resolve("Basket") { [:basket] } ``` ``` erb <%= form_with model: @basket do |form| %> <% end %> ``` This will generate the singular URL `/basket` instead of the usual `/baskets/:id`. Customizing Resourceful Routes ------------------------------ While the default routes and helpers generated by `resources :articles` will usually serve you well, you may want to customize them in some way. Rails allows you to customize virtually any generic part of the resourceful helpers. ### Specifying a Controller to Use The `:controller` option lets you explicitly specify a controller to use for the resource. For example: ```ruby resources :photos, controller: 'images' ``` will recognize incoming paths beginning with `/photos` but route to the `Images` controller: | HTTP Verb | Path | Controller#Action | Named Route Helper | | --------- | ---------------- | ----------------- | -------------------- | | GET | /photos | images#index | photos_path | | GET | /photos/new | images#new | new_photo_path | | POST | /photos | images#create | photos_path | | GET | /photos/:id | images#show | photo_path(:id) | | GET | /photos/:id/edit | images#edit | edit_photo_path(:id) | | PATCH/PUT | /photos/:id | images#update | photo_path(:id) | | DELETE | /photos/:id | images#destroy | photo_path(:id) | NOTE: Use `photos_path`, `new_photo_path`, etc. to generate paths for this resource. For namespaced controllers you can use the directory notation. For example: ```ruby resources :user_permissions, controller: 'admin/user_permissions' ``` This will route to the `Admin::UserPermissions` controller. NOTE: Only the directory notation is supported. Specifying the controller with Ruby constant notation (e.g. `controller: 'Admin::UserPermissions'`) can lead to routing problems and results in a warning. ### Specifying Constraints You can use the `:constraints` option to specify a required format on the implicit `id`. For example: ```ruby resources :photos, constraints: { id: /[A-Z][A-Z][0-9]+/ } ``` This declaration constrains the `:id` parameter to match the supplied regular expression. So, in this case, the router would no longer match `/photos/1` to this route. Instead, `/photos/RR27` would match. You can specify a single constraint to apply to a number of routes by using the block form: ```ruby constraints(id: /[A-Z][A-Z][0-9]+/) do resources :photos resources :accounts end ``` NOTE: Of course, you can use the more advanced constraints available in non-resourceful routes in this context. TIP: By default the `:id` parameter doesn't accept dots - this is because the dot is used as a separator for formatted routes. If you need to use a dot within an `:id` add a constraint which overrides this - for example `id: /[^\/]+/` allows anything except a slash. ### Overriding the Named Route Helpers The `:as` option lets you override the normal naming for the named route helpers. For example: ```ruby resources :photos, as: 'images' ``` will recognize incoming paths beginning with `/photos` and route the requests to `PhotosController`, but use the value of the `:as` option to name the helpers. | HTTP Verb | Path | Controller#Action | Named Route Helper | | --------- | ---------------- | ----------------- | -------------------- | | GET | /photos | photos#index | images_path | | GET | /photos/new | photos#new | new_image_path | | POST | /photos | photos#create | images_path | | GET | /photos/:id | photos#show | image_path(:id) | | GET | /photos/:id/edit | photos#edit | edit_image_path(:id) | | PATCH/PUT | /photos/:id | photos#update | image_path(:id) | | DELETE | /photos/:id | photos#destroy | image_path(:id) | ### Overriding the `new` and `edit` Segments The `:path_names` option lets you override the automatically-generated `new` and `edit` segments in paths: ```ruby resources :photos, path_names: { new: 'make', edit: 'change' } ``` This would cause the routing to recognize paths such as: ``` /photos/make /photos/1/change ``` NOTE: The actual action names aren't changed by this option. The two paths shown would still route to the `new` and `edit` actions. TIP: If you find yourself wanting to change this option uniformly for all of your routes, you can use a scope. ```ruby scope path_names: { new: 'make' } do # rest of your routes end ``` ### Prefixing the Named Route Helpers You can use the `:as` option to prefix the named route helpers that Rails generates for a route. Use this option to prevent name collisions between routes using a path scope. For example: ```ruby scope 'admin' do resources :photos, as: 'admin_photos' end resources :photos ``` This will provide route helpers such as `admin_photos_path`, `new_admin_photo_path`, etc. To prefix a group of route helpers, use `:as` with `scope`: ```ruby scope 'admin', as: 'admin' do resources :photos, :accounts end resources :photos, :accounts ``` This will generate routes such as `admin_photos_path` and `admin_accounts_path` which map to `/admin/photos` and `/admin/accounts` respectively. NOTE: The `namespace` scope will automatically add `:as` as well as `:module` and `:path` prefixes. You can prefix routes with a named parameter also: ```ruby scope ':username' do resources :articles end ``` This will provide you with URLs such as `/bob/articles/1` and will allow you to reference the `username` part of the path as `params[:username]` in controllers, helpers, and views. ### Restricting the Routes Created By default, Rails creates routes for the seven default actions (`index`, `show`, `new`, `create`, `edit`, `update`, and `destroy`) for every RESTful route in your application. You can use the `:only` and `:except` options to fine-tune this behavior. The `:only` option tells Rails to create only the specified routes: ```ruby resources :photos, only: [:index, :show] ``` Now, a `GET` request to `/photos` would succeed, but a `POST` request to `/photos` (which would ordinarily be routed to the `create` action) will fail. The `:except` option specifies a route or list of routes that Rails should _not_ create: ```ruby resources :photos, except: :destroy ``` In this case, Rails will create all of the normal routes except the route for `destroy` (a `DELETE` request to `/photos/:id`). TIP: If your application has many RESTful routes, using `:only` and `:except` to generate only the routes that you actually need can cut down on memory use and speed up the routing process. ### Translated Paths Using `scope`, we can alter path names generated by `resources`: ```ruby scope(path_names: { new: 'neu', edit: 'bearbeiten' }) do resources :categories, path: 'kategorien' end ``` Rails now creates routes to the `CategoriesController`. | HTTP Verb | Path | Controller#Action | Named Route Helper | | --------- | -------------------------- | ------------------ | ----------------------- | | GET | /kategorien | categories#index | categories_path | | GET | /kategorien/neu | categories#new | new_category_path | | POST | /kategorien | categories#create | categories_path | | GET | /kategorien/:id | categories#show | category_path(:id) | | GET | /kategorien/:id/bearbeiten | categories#edit | edit_category_path(:id) | | PATCH/PUT | /kategorien/:id | categories#update | category_path(:id) | | DELETE | /kategorien/:id | categories#destroy | category_path(:id) | ### Overriding the Singular Form If you want to define the singular form of a resource, you should add additional rules to the `Inflector`: ```ruby ActiveSupport::Inflector.inflections do |inflect| inflect.irregular 'tooth', 'teeth' end ``` ### Using `:as` in Nested Resources The `:as` option overrides the automatically-generated name for the resource in nested route helpers. For example: ```ruby resources :magazines do resources :ads, as: 'periodical_ads' end ``` This will create routing helpers such as `magazine_periodical_ads_url` and `edit_magazine_periodical_ad_path`. ### Overriding Named Route Parameters The `:param` option overrides the default resource identifier `:id` (name of the [dynamic segment](routing.html#dynamic-segments) used to generate the routes). You can access that segment from your controller using `params[<:param>]`. ```ruby resources :videos, param: :identifier ``` ``` videos GET /videos(.:format) videos#index POST /videos(.:format) videos#create new_video GET /videos/new(.:format) videos#new edit_video GET /videos/:identifier/edit(.:format) videos#edit ``` ```ruby Video.find_by(identifier: params[:identifier]) ``` You can override `ActiveRecord::Base#to_param` of the associated model to construct a URL: ```ruby class Video < ApplicationRecord def to_param identifier end end video = Video.find_by(identifier: "Roman-Holiday") edit_video_path(video) # => "/videos/Roman-Holiday/edit" ``` Breaking up *very* large route file into multiple small ones: ------------------------------------------------------- If you work in a large application with thousands of routes, a single `config/routes.rb` file can become cumbersome and hard to read. Rails offers a way to break a gigantic single `routes.rb` file into multiple small ones using the `draw` macro. ```ruby # config/routes.rb Rails.application.routes.draw do get 'foo', to: 'foo#bar' draw(:admin) # Will load another route file located in `config/routes/admin.rb` end # config/routes/admin.rb namespace :admin do resources :comments end ``` Calling `draw(:admin)` inside the `Rails.application.routes.draw` block itself will try to load a route file that has the same name as the argument given (`admin.rb` in this case). The file needs to be located inside the `config/routes` directory or any sub-directory (i.e. `config/routes/admin.rb` or `config/routes/external/admin.rb`). You can use the normal routing DSL inside the `admin.rb` routing file, **however** you shouldn't surround it with the `Rails.application.routes.draw` block like you did in the main `config/routes.rb` file. ### When to use and not use this feature Drawing routes from external files can be very useful to organise a large set of routes into multiple organised ones. You could have a `admin.rb` route that contains all the routes for the admin area, another `api.rb` file to route API related resources etc... However, you shouldn't abuse this feature as having too many route files make discoverability and understandability more difficult. Depending on the application, it might be easier for developers to have a single routing file even if you have few hundreds routes. You shouldn't try to create a new routing file for each category (admin, api ...) at all cost; the Rails routing DSL already offers a way to break routes in a organised manner with `namespaces` and `scopes`. Inspecting and Testing Routes ----------------------------- Rails offers facilities for inspecting and testing your routes. ### Listing Existing Routes To get a complete list of the available routes in your application, visit `http://localhost:3000/rails/info/routes` in your browser while your server is running in the **development** environment. You can also execute the `bin/rails routes` command in your terminal to produce the same output. Both methods will list all of your routes, in the same order that they appear in `config/routes.rb`. For each route, you'll see: * The route name (if any) * The HTTP verb used (if the route doesn't respond to all verbs) * The URL pattern to match * The routing parameters for the route For example, here's a small section of the `bin/rails routes` output for a RESTful route: ``` users GET /users(.:format) users#index POST /users(.:format) users#create new_user GET /users/new(.:format) users#new edit_user GET /users/:id/edit(.:format) users#edit ``` You can also use the `--expanded` option to turn on the expanded table formatting mode. ```bash $ bin/rails routes --expanded --[ Route 1 ]---------------------------------------------------- Prefix | users Verb | GET URI | /users(.:format) Controller#Action | users#index --[ Route 2 ]---------------------------------------------------- Prefix | Verb | POST URI | /users(.:format) Controller#Action | users#create --[ Route 3 ]---------------------------------------------------- Prefix | new_user Verb | GET URI | /users/new(.:format) Controller#Action | users#new --[ Route 4 ]---------------------------------------------------- Prefix | edit_user Verb | GET URI | /users/:id/edit(.:format) Controller#Action | users#edit ``` You can search through your routes with the grep option: -g. This outputs any routes that partially match the URL helper method name, the HTTP verb, or the URL path. ```bash $ bin/rails routes -g new_comment $ bin/rails routes -g POST $ bin/rails routes -g admin ``` If you only want to see the routes that map to a specific controller, there's the -c option. ```bash $ bin/rails routes -c users $ bin/rails routes -c admin/users $ bin/rails routes -c Comments $ bin/rails routes -c Articles::CommentsController ``` TIP: You'll find that the output from `bin/rails routes` is much more readable if you widen your terminal window until the output lines don't wrap. ### Testing Routes Routes should be included in your testing strategy (just like the rest of your application). Rails offers three [built-in assertions](https://api.rubyonrails.org/classes/ActionDispatch/Assertions/RoutingAssertions.html) designed to make testing routes simpler: * `assert_generates` * `assert_recognizes` * `assert_routing` #### The `assert_generates` Assertion `assert_generates` asserts that a particular set of options generate a particular path and can be used with default routes or custom routes. For example: ```ruby assert_generates '/photos/1', { controller: 'photos', action: 'show', id: '1' } assert_generates '/about', controller: 'pages', action: 'about' ``` #### The `assert_recognizes` Assertion `assert_recognizes` is the inverse of `assert_generates`. It asserts that a given path is recognized and routes it to a particular spot in your application. For example: ```ruby assert_recognizes({ controller: 'photos', action: 'show', id: '1' }, '/photos/1') ``` You can supply a `:method` argument to specify the HTTP verb: ```ruby assert_recognizes({ controller: 'photos', action: 'create' }, { path: 'photos', method: :post }) ``` #### The `assert_routing` Assertion The `assert_routing` assertion checks the route both ways: it tests that the path generates the options, and that the options generate the path. Thus, it combines the functions of `assert_generates` and `assert_recognizes`: ```ruby assert_routing({ path: 'photos', method: :post }, { controller: 'photos', action: 'create' }) ```