defmodule Phoenix.Router do defmodule NoRouteError do @moduledoc """ Exception raised when no route is found. """ defexception plug_status: 404, message: "no route found", conn: nil, router: nil def exception(opts) do conn = Keyword.fetch!(opts, :conn) router = Keyword.fetch!(opts, :router) path = "/" <> Enum.join(conn.path_info, "/") %NoRouteError{message: "no route found for #{conn.method} #{path} (#{inspect router})", conn: conn, router: router} end end @moduledoc """ Defines a Phoenix router. The router provides a set of macros for generating routes that dispatch to specific controllers and actions. Those macros are named after HTTP verbs. For example: defmodule MyAppWeb.Router do use Phoenix.Router get "/pages/:page", PageController, :show end The `get/3` macro above accepts a request of format `"/pages/VALUE"` and dispatches it to the show action in the `PageController`. Routes can also match glob-like patterns, routing any path with a common base to the same controller. For example: get "/dynamic*anything", DynamicController, :show Phoenix's router is extremely efficient, as it relies on Elixir pattern matching for matching routes and serving requests. ## Helpers Phoenix automatically generates a module `Helpers` inside your router which contains named helpers to help developers generate and keep their routes up to date. Helpers are automatically generated based on the controller name. For example, the route: get "/pages/:page", PageController, :show will generate the following named helper: MyAppWeb.Router.Helpers.page_path(conn_or_endpoint, :show, "hello") "/pages/hello" MyAppWeb.Router.Helpers.page_path(conn_or_endpoint, :show, "hello", some: "query") "/pages/hello?some=query" MyAppWeb.Router.Helpers.page_url(conn_or_endpoint, :show, "hello") "http://example.com/pages/hello" MyAppWeb.Router.Helpers.page_url(conn_or_endpoint, :show, "hello", some: "query") "http://example.com/pages/hello?some=query" If the route contains glob-like patterns, parameters for those have to be given as list: MyAppWeb.Router.Helpers.dynamic_path(conn_or_endpoint, :show, ["dynamic", "something"]) "/dynamic/something" The URL generated in the named URL helpers is based on the configuration for `:url`, `:http` and `:https`. However, if for some reason you need to manually control the URL generation, the url helpers also allow you to pass in a `URI` struct: uri = %URI{scheme: "https", host: "other.example.com"} MyAppWeb.Router.Helpers.page_url(uri, :show, "hello") "https://other.example.com/pages/hello" The named helper can also be customized with the `:as` option. Given the route: get "/pages/:page", PageController, :show, as: :special_page the named helper will be: MyAppWeb.Router.Helpers.special_page_path(conn, :show, "hello") "/pages/hello" ## Scopes and Resources It is very common in Phoenix applications to namespace all of your routes under the application scope: scope "/", MyAppWeb do get "/pages/:id", PageController, :show end The route above will dispatch to `MyAppWeb.PageController`. This syntax is not only convenient for developers, since we don't have to repeat the `MyAppWeb.` prefix on all routes, but it also allows Phoenix to put less pressure on the Elixir compiler. If instead we had written: get "/pages/:id", MyAppWeb.PageController, :show The Elixir compiler would infer that the router depends directly on `MyAppWeb.PageController`, which is not true. By using scopes, Phoenix can properly hint to the Elixir compiler the controller is not an actual dependency of the router. This provides more efficient compilation times. Scopes allow us to scope on any path or even on the helper name: scope "/api/v1", MyAppWeb, as: :api_v1 do get "/pages/:id", PageController, :show end For example, the route above will match on the path `"/api/v1/pages/:id"` and the named route will be `api_v1_page_path`, as expected from the values given to `scope/2` option. Phoenix also provides a `resources/4` macro that allows developers to generate "RESTful" routes to a given resource: defmodule MyAppWeb.Router do use Phoenix.Router resources "/pages", PageController, only: [:show] resources "/users", UserController, except: [:delete] end Finally, Phoenix ships with a `mix phx.routes` task that nicely formats all routes in a given router. We can use it to verify all routes included in the router above: $ mix phx.routes page_path GET /pages/:id PageController.show/2 user_path GET /users UserController.index/2 user_path GET /users/:id/edit UserController.edit/2 user_path GET /users/new UserController.new/2 user_path GET /users/:id UserController.show/2 user_path POST /users UserController.create/2 user_path PATCH /users/:id UserController.update/2 PUT /users/:id UserController.update/2 One can also pass a router explicitly as an argument to the task: $ mix phx.routes MyAppWeb.Router Check `scope/2` and `resources/4` for more information. ## Pipelines and plugs Once a request arrives at the Phoenix router, it performs a series of transformations through pipelines until the request is dispatched to a desired end-point. Such transformations are defined via plugs, as defined in the [Plug](http://github.com/elixir-lang/plug) specification. Once a pipeline is defined, it can be piped through per scope. For example: defmodule MyAppWeb.Router do use Phoenix.Router pipeline :browser do plug :fetch_session plug :accepts, ["html"] end scope "/" do pipe_through :browser # browser related routes and resources end end `Phoenix.Router` imports functions from both `Plug.Conn` and `Phoenix.Controller` to help define plugs. In the example above, `fetch_session/2` comes from `Plug.Conn` while `accepts/2` comes from `Phoenix.Controller`. Note that router pipelines are only invoked after a route is found. No plug is invoked in case no matches were found. """ alias Phoenix.Router.{Resource, Scope, Route, Helpers} @http_methods [:get, :post, :put, :patch, :delete, :options, :connect, :trace, :head] @doc false defmacro __using__(_) do quote do unquote(prelude()) unquote(defs()) unquote(match_dispatch()) end end defp prelude() do quote do Module.register_attribute __MODULE__, :phoenix_routes, accumulate: true @phoenix_forwards %{} import Phoenix.Router # TODO v2: No longer automatically import dependencies import Plug.Conn import Phoenix.Controller # Set up initial scope @phoenix_pipeline nil Phoenix.Router.Scope.init(__MODULE__) @before_compile unquote(__MODULE__) end end # Because those macros are executed multiple times, # we end-up generating a huge scope that drastically # affects compilation. We work around it by defining # those functions only once and calling it over and # over again. defp defs() do quote unquote: false do var!(add_resources, Phoenix.Router) = fn resource -> path = resource.path ctrl = resource.controller opts = resource.route if resource.singleton do Enum.each resource.actions, fn :show -> get path, ctrl, :show, opts :new -> get path <> "/new", ctrl, :new, opts :edit -> get path <> "/edit", ctrl, :edit, opts :create -> post path, ctrl, :create, opts :delete -> delete path, ctrl, :delete, opts :update -> patch path, ctrl, :update, opts put path, ctrl, :update, Keyword.put(opts, :as, nil) end else param = resource.param Enum.each resource.actions, fn :index -> get path, ctrl, :index, opts :show -> get path <> "/:" <> param, ctrl, :show, opts :new -> get path <> "/new", ctrl, :new, opts :edit -> get path <> "/:" <> param <> "/edit", ctrl, :edit, opts :create -> post path, ctrl, :create, opts :delete -> delete path <> "/:" <> param, ctrl, :delete, opts :update -> patch path <> "/:" <> param, ctrl, :update, opts put path <> "/:" <> param, ctrl, :update, Keyword.put(opts, :as, nil) end end end end end @doc false def __call__( %{private: %{phoenix_router: router, phoenix_bypass: {router, pipes}}} = conn, {metadata, prepare, pipeline, _} ) do conn = prepare.(conn, metadata) case pipes do :current -> pipeline.(conn) _ -> Enum.reduce(pipes, conn, fn pipe, acc -> apply(router, pipe, [acc, []]) end) end end def __call__(%{private: %{phoenix_bypass: :all}} = conn, {metadata, prepare, _, _}) do prepare.(conn, metadata) end def __call__(conn, {metadata, prepare, pipeline, {plug, opts}}) do conn = prepare.(conn, metadata) start = System.monotonic_time() metadata = %{metadata | conn: conn} :telemetry.execute([:phoenix, :router_dispatch, :start], %{time: start}, metadata) case pipeline.(conn) do %Plug.Conn{halted: true} = halted_conn -> halted_conn %Plug.Conn{} = piped_conn -> try do plug.call(piped_conn, plug.init(opts)) else conn -> duration = System.monotonic_time() - start metadata = %{metadata | conn: conn} :telemetry.execute([:phoenix, :router_dispatch, :stop], %{duration: duration}, metadata) conn rescue e in Plug.Conn.WrapperError -> Plug.Conn.WrapperError.reraise(e) catch :error, reason -> Plug.Conn.WrapperError.reraise(piped_conn, :error, reason, System.stacktrace()) end end end defp match_dispatch() do quote location: :keep do @behaviour Plug @doc """ Callback required by Plug that initializes the router for serving web requests. """ def init(opts) do opts end @doc """ Callback invoked by Plug on every request. """ def call(conn, _opts) do %{method: method, path_info: path_info, host: host} = conn = prepare(conn) case __match_route__(method, Enum.map(path_info, &URI.decode/1), host) do :error -> raise NoRouteError, conn: conn, router: __MODULE__ match -> Phoenix.Router.__call__(conn, match) end end defoverridable [init: 1, call: 2] end end @anno (if :erlang.system_info(:otp_release) >= '19' do [generated: true] else [line: -1] end) @doc false defmacro __before_compile__(env) do routes = env.module |> Module.get_attribute(:phoenix_routes) |> Enum.reverse routes_with_exprs = Enum.map(routes, &{&1, Route.exprs(&1)}) Helpers.define(env, routes_with_exprs) {matches, _} = Enum.map_reduce(routes_with_exprs, %{}, &build_match/2) checks = for {%{line: line, plug: plug, plug_opts: plug_opts}, _} <- routes_with_exprs, into: %{} do quote line: line do {unquote(plug).init(unquote(Macro.escape(plug_opts))), []} end end # @anno is used here to avoid warnings if forwarding to root path match_404 = quote @anno do def __match_route__(_method, _path_info, _host) do :error end end quote do @doc false def __routes__, do: unquote(Macro.escape(routes)) @doc false def __checks__, do: unquote({:__block__, [], Map.keys(checks)}) @doc false def __helpers__, do: __MODULE__.Helpers defp prepare(conn) do update_in conn.private, &(&1 |> Map.put(:phoenix_router, __MODULE__) |> Map.put(__MODULE__, {conn.script_name, @phoenix_forwards})) end unquote(matches) unquote(match_404) end end defp build_match({route, exprs}, known_pipelines) do %{pipe_through: pipe_through} = route %{ prepare: prepare, dispatch: dispatch, verb_match: verb_match, path_params: path_params, path: path, host: host } = exprs {pipe_name, pipe_definition, known_pipelines} = case known_pipelines do %{^pipe_through => name} -> {name, :ok, known_pipelines} %{} -> name = :"__pipe_through#{map_size(known_pipelines)}__" {name, build_pipes(name, pipe_through), Map.put(known_pipelines, pipe_through, name)} end quoted = quote line: route.line do unquote(pipe_definition) @doc false def __match_route__(unquote(verb_match), unquote(path), unquote(host)) do {unquote(build_metadata(route, path_params)), fn var!(conn, :conn), %{path_params: var!(path_params, :conn)} -> unquote(prepare) end, &unquote(Macro.var(pipe_name, __MODULE__))/1, unquote(dispatch)} end end {quoted, known_pipelines} end defp build_metadata(route, path_params) do %{path: path, plug: plug, plug_opts: plug_opts, log: log, pipe_through: pipe_through} = route pairs = [ conn: nil, route: path, plug: plug, plug_opts: Macro.escape(plug_opts), log: log, path_params: path_params, pipe_through: pipe_through ] {:%{}, [], pairs} end defp build_pipes(name, []) do quote do defp unquote(name)(conn), do: conn end end defp build_pipes(name, pipe_through) do plugs = pipe_through |> Enum.reverse |> Enum.map(&{&1, [], true}) {conn, body} = Plug.Builder.compile(__ENV__, plugs, init_mode: Phoenix.plug_init_mode()) quote do defp unquote(name)(unquote(conn)), do: unquote(body) end end @doc """ Generates a route match based on an arbitrary HTTP method. Useful for defining routes not included in the builtin macros. The catch-all verb, `:*`, may also be used to match all HTTP methods. ## Options * `:as` - configures the named helper exclusively * `:log` - the level to log the route dispatching under, may be set to false. Defaults to `:debug` * `:host` - a string containing the host scope, or prefix host scope, ie `"foo.bar.com"`, `"foo."` * `:private` - a map of private data to merge into the connection when a route matches * `:assigns` - a map of data to merge into the connection when a route matches ## Examples match(:move, "/events/:id", EventController, :move) match(:*, "/any", SomeController, :any) """ defmacro match(verb, path, plug, plug_opts, options \\ []) do add_route(:match, verb, path, plug, plug_opts, options) end for verb <- @http_methods do @doc """ Generates a route to handle a #{verb} request to the given path. #{verb}("/events/:id", EventController, :action) See `match/5` for options. """ defmacro unquote(verb)(path, plug, plug_opts, options \\ []) do add_route(:match, unquote(verb), path, plug, plug_opts, options) end end defp add_route(kind, verb, path, plug, plug_opts, options) do quote do @phoenix_routes Scope.route( __ENV__.line, __ENV__.module, unquote(kind), unquote(verb), unquote(path), unquote(plug), unquote(plug_opts), unquote(options) ) end end @doc """ Defines a plug pipeline. Pipelines are defined at the router root and can be used from any scope. ## Examples pipeline :api do plug :token_authentication plug :dispatch end A scope may then use this pipeline as: scope "/" do pipe_through :api end Every time `pipe_through/1` is called, the new pipelines are appended to the ones previously given. """ defmacro pipeline(plug, do: block) do block = quote do plug = unquote(plug) @phoenix_pipeline [] unquote(block) end compiler = quote unquote: false do Scope.pipeline(__MODULE__, plug) {conn, body} = Plug.Builder.compile(__ENV__, @phoenix_pipeline, init_mode: Phoenix.plug_init_mode()) def unquote(plug)(unquote(conn), _) do try do unquote(body) rescue e in Plug.Conn.WrapperError -> Plug.Conn.WrapperError.reraise(e) catch :error, reason -> Plug.Conn.WrapperError.reraise(unquote(conn), :error, reason, System.stacktrace()) end end @phoenix_pipeline nil end quote do try do unquote(block) unquote(compiler) after :ok end end end @doc """ Defines a plug inside a pipeline. See `pipeline/2` for more information. """ defmacro plug(plug, opts \\ []) do plug = Macro.expand(plug, %{__CALLER__ | function: {:init, 1}}) quote do if pipeline = @phoenix_pipeline do @phoenix_pipeline [{unquote(plug), unquote(opts), true}|pipeline] else raise "cannot define plug at the router level, plug must be defined inside a pipeline" end end end @doc """ Defines a pipeline to send the connection through. See `pipeline/2` for more information. """ defmacro pipe_through(pipes) do quote do if pipeline = @phoenix_pipeline do raise "cannot pipe_through inside a pipeline" else Scope.pipe_through(__MODULE__, unquote(pipes)) end end end @doc """ Defines "RESTful" routes for a resource. The given definition: resources "/users", UserController will include routes to the following actions: * `GET /users` => `:index` * `GET /users/new` => `:new` * `POST /users` => `:create` * `GET /users/:id` => `:show` * `GET /users/:id/edit` => `:edit` * `PATCH /users/:id` => `:update` * `PUT /users/:id` => `:update` * `DELETE /users/:id` => `:delete` ## Options This macro accepts a set of options: * `:only` - a list of actions to generate routes for, for example: `[:show, :edit]` * `:except` - a list of actions to exclude generated routes from, for example: `[:delete]` * `:param` - the name of the parameter for this resource, defaults to `"id"` * `:name` - the prefix for this resource. This is used for the named helper and as the prefix for the parameter in nested resources. The default value is automatically derived from the controller name, i.e. `UserController` will have name `"user"` * `:as` - configures the named helper exclusively * `:singleton` - defines routes for a singleton resource that is looked up by the client without referencing an ID. Read below for more information ## Singleton resources When a resource needs to be looked up without referencing an ID, because it contains only a single entry in the given context, the `:singleton` option can be used to generate a set of routes that are specific to such single resource: * `GET /user` => `:show` * `GET /user/new` => `:new` * `POST /user` => `:create` * `GET /user/edit` => `:edit` * `PATCH /user` => `:update` * `PUT /user` => `:update` * `DELETE /user` => `:delete` Usage example: resources "/account", AccountController, only: [:show], singleton: true ## Nested Resources This macro also supports passing a nested block of route definitions. This is helpful for nesting children resources within their parents to generate nested routes. The given definition: resources "/users", UserController do resources "/posts", PostController end will include the following routes: user_post_path GET /users/:user_id/posts PostController :index user_post_path GET /users/:user_id/posts/:id/edit PostController :edit user_post_path GET /users/:user_id/posts/new PostController :new user_post_path GET /users/:user_id/posts/:id PostController :show user_post_path POST /users/:user_id/posts PostController :create user_post_path PATCH /users/:user_id/posts/:id PostController :update PUT /users/:user_id/posts/:id PostController :update user_post_path DELETE /users/:user_id/posts/:id PostController :delete """ defmacro resources(path, controller, opts, do: nested_context) do add_resources path, controller, opts, do: nested_context end @doc """ See `resources/4`. """ defmacro resources(path, controller, do: nested_context) do add_resources path, controller, [], do: nested_context end defmacro resources(path, controller, opts) do add_resources path, controller, opts, do: nil end @doc """ See `resources/4`. """ defmacro resources(path, controller) do add_resources path, controller, [], do: nil end defp add_resources(path, controller, options, do: context) do scope = if context do quote do scope resource.member, do: unquote(context) end end quote do resource = Resource.build(unquote(path), unquote(controller), unquote(options)) var!(add_resources, Phoenix.Router).(resource) unquote(scope) end end @doc """ Defines a scope in which routes can be nested. ## Examples scope path: "/api/v1", as: :api_v1, alias: API.V1 do get "/pages/:id", PageController, :show end The generated route above will match on the path `"/api/v1/pages/:id"` and will dispatch to `:show` action in `API.V1.PageController`. A named helper `api_v1_page_path` will also be generated. ## Options The supported options are: * `:path` - a string containing the path scope * `:as` - a string or atom containing the named helper scope * `:alias` - an alias (atom) containing the controller scope. When set, this value may be overridden per route by passing `alias: false` to route definitions, such as `get`, `post`, etc. * `:host` - a string containing the host scope, or prefix host scope, ie `"foo.bar.com"`, `"foo."` * `:private` - a map of private data to merge into the connection when a route matches * `:assigns` - a map of data to merge into the connection when a route matches * `:log` - the level to log the route dispatching under, may be set to false. Defaults to `:debug` """ defmacro scope(options, do: context) do do_scope(options, context) end @doc """ Define a scope with the given path. This function is a shortcut for: scope path: path do ... end ## Examples scope "/api/v1", as: :api_v1, alias: API.V1 do get "/pages/:id", PageController, :show end """ defmacro scope(path, options, do: context) do options = quote do path = unquote(path) case unquote(options) do alias when is_atom(alias) -> [path: path, alias: alias] options when is_list(options) -> Keyword.put(options, :path, path) end end do_scope(options, context) end @doc """ Defines a scope with the given path and alias. This function is a shortcut for: scope path: path, alias: alias do ... end ## Examples scope "/api/v1", API.V1, as: :api_v1 do get "/pages/:id", PageController, :show end """ defmacro scope(path, alias, options, do: context) do options = quote do unquote(options) |> Keyword.put(:path, unquote(path)) |> Keyword.put(:alias, unquote(alias)) end do_scope(options, context) end defp do_scope(options, context) do quote do Scope.push(__MODULE__, unquote(options)) try do unquote(context) after Scope.pop(__MODULE__) end end end @doc """ Returns the full alias with the current scope's aliased prefix. Useful for applying the same short-hand alias handling to other values besides the second argument in route definitions. ## Examples scope "/", MyPrefix do get "/", ProxyPlug, controller: scoped_alias(__MODULE__, MyController) end """ def scoped_alias(router_module, alias) do Scope.expand_alias(router_module, alias) end @doc """ Forwards a request at the given path to a plug. All paths that match the forwarded prefix will be sent to the forwarded plug. This is useful for sharing a router between applications or even breaking a big router into smaller ones. The router pipelines will be invoked prior to forwarding the connection. However, we don't advise forwarding to another endpoint. The reason is that plugs defined by your app and the forwarded endpoint would be invoked twice, which may lead to errors. ## Examples scope "/", MyApp do pipe_through [:browser, :admin] forward "/admin", SomeLib.AdminDashboard forward "/api", ApiRouter end """ defmacro forward(path, plug, plug_opts \\ [], router_opts \\ []) do router_opts = Keyword.put(router_opts, :as, nil) quote unquote: true, bind_quoted: [path: path, plug: plug] do plug = Scope.register_forwards(__MODULE__, path, plug) unquote(add_route(:forward, :*, path, plug, plug_opts, router_opts)) end end @doc """ Returns the compile-time route info and runtime path params for a request. A map of metadata is returned with the following keys: * `:log` - the configured log level. For example `:debug` * `:path_params` - the map of runtime path params * `:pipe_through` - the list of pipelines for the route's scope, for example `[:browser]` * `:plug` - the plug to dipatch the route to, for example `AppWeb.PostController` * `:plug_opts` - the options to pass when calling the plug, for example: `:index` * `:route` - the string route pattern, such as `"/posts/:id"` ## Examples iex> Phoenix.Router.route_info(AppWeb.Router, "GET", "/posts/123", "myhost") %{ log: :debug, path_params: %{"id" => "123"}, pipe_through: [:browser], plug: AppWeb.PostController, plug_opts: :show, route: "/posts/:id", } iex> Phoenix.Router.route_info(MyRouter, "GET", "/not-exists", "myhost") :error """ def route_info(router, method, path, host) do split_segments = for segment <- String.split(path, "/"), segment != "", do: segment case List.last(split_segments) do last_segment when last_segment in ["published_messages", "consumed_messages"] -> do_route_info(router, method, [last_segment], host) _ -> do_route_info(router, method, split_segments, host) end end def do_route_info(router, method, route_segments, host) do case router.__match_route__(method, route_segments, host) do {%{} = metadata, _prepare, _pipeline, {_plug, _opts}} -> Map.delete(metadata, :conn) :error -> :error end end end