NAME
Mojolicious::Guides::Routing - Routing
OVERVIEW
This document contains a simple and fun introduction to the Mojolicious router and its underlying concepts.
CONCEPTS
Essentials every Mojolicious developer should know.
Dispatcher
The foundation of every web framework is a tiny black box connecting incoming requests with code generating the appropriate response.
GET /user/show/1 -> $self->render(text => 'Sebastian!');
This black box is usually called a dispatcher. There are many implementations using different strategies to establish these connections, but pretty much all are based around mapping the requests path to some kind of response generator.
/user/show/1 -> $self->render(text => 'Sebastian!');
/user/show/2 -> $self->render(text => 'Sara!');
/user/show/3 -> $self->render(text => 'Baerbel!');
/user/show/4 -> $self->render(text => 'Wolfgang!');
While it is very well possible to make all these connections static, it is also rather inefficient. That's why regular expressions are commonly used to make the dispatch process more dynamic.
qr|/user/show/(\d+)| -> $self->render(text => $users{$1});
Modern dispatchers have pretty much everything HTTP has to offer at their disposal and can use many more variables than just the request path, such as request method and headers like Host
, User-Agent
and Accept
.
GET /user/show/23 HTTP/1.1
Host: mojolicio.us
User-Agent: Mozilla/5.0 (compatible; Mojolicious; Perl)
Accept: text/html,application/xhtml+xml,application/xml;q=0.9,*/*;q=0.8
Routes
While regular expressions are quite powerful they also tend to be unpleasant to look at and are generally overkill for ordinary path matching.
qr|/user/show/(\d+)| -> $self->render(text => $users{$1});
This is where routes come into play, they have been designed from the ground up to represent paths with placeholders.
/user/show/:id -> $self->render(text => $users{$id});
The only difference between a static path and the route above is the :id
placeholder. One or more placeholders can be anywhere in the route.
/user/:action/:id
A fundamental concept of the Mojolicious router is that extracted placeholder values are turned into a hash.
/user/show/23 -> /user/:action/:id -> {action => 'show', id => 23}
This hash is basically the center of every Mojolicious application, you will learn more about this later on. Internally routes get compiled to regular expressions, so you can get the best of both worlds with a little bit of experience.
/user/show/:id -> qr/(?-xism:^\/user\/show/([^\/\.]+))/
Reversibility
One more huge advantage routes have over regular expressions is that they are easily reversible, extracted placeholders can be turned back into a path at any time.
/sebastian -> /:name -> {name => 'sebastian'}
{name => 'sebastian'} -> /:name -> /sebastian
Generic Placeholders
Generic placeholders are the simplest form of placeholders and match all characters except /
and .
.
/hello -> /:name/hello -> undef
/sebastian/23/hello -> /:name/hello -> undef
/sebastian.23/hello -> /:name/hello -> undef
/sebastian/hello -> /:name/hello -> {name => 'sebastian'}
/sebastian23/hello -> /:name/hello -> {name => 'sebastian23'}
/sebastian 23/hello -> /:name/hello -> {name => 'sebastian 23'}
A generic placeholder can be surrounded by brackets to separate it from the surrounding text.
/hello -> /(:name)hello -> undef
/sebastian/23hello -> /(:name)hello -> undef
/sebastian.23hello -> /(:name)hello -> undef
/sebastianhello -> /(:name)hello -> {name => 'sebastian'}
/sebastian23hello -> /(:name)hello -> {name => 'sebastian23'}
/sebastian 23hello -> /(:name)hello -> {name => 'sebastian 23'}
Wildcard Placeholders
Wildcard placeholders are just like generic placeholders, but match absolutely everything.
/hello -> /*name/hello -> undef
/sebastian/23/hello -> /*name/hello -> {name => 'sebastian/23'}
/sebastian.23/hello -> /*name/hello -> {name => 'sebastian.23'}
/sebastian/hello -> /*name/hello -> {name => 'sebastian'}
/sebastian23/hello -> /*name/hello -> {name => 'sebastian23'}
/sebastian 23/hello -> /*name/hello -> {name => 'sebastian 23'}
Relaxed Placeholders
Relaxed placeholders are similar to the two placeholders above, but always require brackets and match all characters except /
.
/hello -> /(.name)/hello -> undef
/sebastian/23/hello -> /(.name)/hello -> undef
/sebastian.23/hello -> /(.name)/hello -> {name => 'sebastian.23'}
/sebastian/hello -> /(.name)/hello -> {name => 'sebastian'}
/sebastian23/hello -> /(.name)/hello -> {name => 'sebastian23'}
/sebastian 23/hello -> /(.name)/hello -> {name => 'sebastian 23'}
BASICS
Most commonly used features every Mojolicious developer should know about.
Minimal Route
Every Mojolicious application has a router object you can use to generate routes structures.
# Application
package MyApp;
use Mojo::Base 'Mojolicious';
sub startup {
my $self = shift;
# Router
my $r = $self->routes;
# Route
$r->route('/welcome')->to(controller => 'foo', action => 'welcome');
}
1;
The minimal static route above will load and instantiate the class MyApp::Foo
and call its welcome
method.
# Controller
package MyApp::Foo;
use Mojo::Base 'Mojolicious::Controller';
# Action
sub welcome {
my $self = shift;
# Render response
$self->render(text => 'Hello there!');
}
1;
Routes are usually configured in the startup
method of the application class, but the router can be accessed from everywhere (even at runtime).
Routing Destination
After you start a new route with the route
method you can also give it a destination in the form of a hash using the chained to
method.
# /welcome -> {controller => 'foo', action => 'welcome'}
$r->route('/welcome')->to(controller => 'foo', action => 'welcome');
Now if the route matches an incoming request it will use the content of this hash to try and find appropriate code to generate a response.
Stash
The generated hash of a matching route is actually the center of the whole Mojolicious request cycle. We call it the stash, and it is basically a global namespace that persists until a response has been generated.
# /bye -> {controller => 'foo', action => 'bye', mymessage => 'Bye!'}
$r->route('/bye')
->to(controller => 'foo', action => 'bye', mymessage => 'Bye!');
There are a few stash values with special meaning, such as controller
and action
, but you can generally fill it with whatever data you need to generate a response. Once dispatched the whole stash content can be changed at any time.
sub bye {
my $self = shift;
# Get message from stash
my $message = $self->stash('mymessage');
# Change message in stash
$self->stash(mymessage => 'Welcome!');
}
Special Stash Values (controller
and action
)
When the dispatcher sees controller
and action
values in the stash it will always try to turn them into a class and method to dispatch to. The controller
value gets camelized and prefixed with a namespace
(defaulting to the applications class) while the action value is not changed at all, because of this both values are case sensitive.
# Application
package MyApp;
use Mojo::Base 'Mojolicious';
sub startup {
my $self = shift;
# Router
my $r = $self->routes;
# /bye -> {controller => 'foo', action => 'bye'} -> MyApp::Foo->bye
$r->route('/bye')->to(controller => 'foo', action => 'bye');
}
1;
# Controller
package MyApp::Foo;
use Mojo::Base 'Mojolicious::Controller';
# Action
sub bye {
my $self = shift;
# Render response
$self->render(text => 'Good bye!');
}
1;
Controller classes are perfect for organizing code in larger projects. There are more dispatch strategies, but because controllers are the most commonly used ones they also got a special shortcut in the form of controller#action
.
# /bye -> {controller => 'foo', action => 'bye', mymessage => 'Bye!'}
$r->route('/bye')->to('foo#bye', mymessage => 'Bye!');
During camelization -
gets replaced with ::
, this allows multi level controller
hierarchies.
# / -> {controller => 'foo-bar', action => 'hi'} -> MyApp::Foo::Bar->hi
$r->route('/')->to('foo-bar#hi');
Route To Class (namespace
)
From time to time you might want to dispatch to a whole different namespace
.
# /bye -> MyApp::Controller::Foo->bye
$r->route('/bye')
->to(namespace => 'MyApp::Controller::Foo', action => 'bye');
The controller
is always appended to the namespace
if available.
# /bye -> MyApp::Controller::Foo->bye
$r->route('/bye')->to('foo#bye', namespace => 'MyApp::Controller');
You can also change the default namespace for all routes.
$r->namespace('MyApp::Controller');
Route To Callback (cb
)
You can use the cb
stash value to bypass controllers and execute a callback instead.
$r->route('/bye')->to(cb => sub {
my $self = shift;
$self->render(text => 'Good bye!');
});
This technique is the foundation of Mojolicious::Lite, you can learn more about it from the included tutorial.
Formats
File extensions like .html
and .txt
at the end of a route are automatically detected and stored in the stash value format
.
# /foo -> {controller => 'foo', action => 'bar'}
# /foo.html -> {controller => 'foo', action => 'bar', format => 'html'}
# /foo.txt -> {controller => 'foo', action => 'bar', format => 'txt'}
$r->route('/foo')->to(controller => 'foo', action => 'bar');
This for example allows multiple templates for different formats to share the same code.
Placeholders And Destinations
Extracted placeholder values will simply redefine older stash values if they already exist.
# /bye -> {controller => 'foo', action => 'bar', mymessage => 'bye'}
# /hey -> {controller => 'foo', action => 'bar', mymessage => 'hey'}
$r->route('/:mymessage')
->to(controller => 'foo', action => 'bar', mymessage => 'hi');
One more interesting effect, if a placeholder is at the end of a route and there is already a stash value of the same name present, it automatically becomes optional.
# / -> {controller => 'foo', action => 'bar', mymessage => 'hi'}
$r->route('/:mymessage')
->to(controller => 'foo', action => 'bar', mymessage => 'hi');
This is also the case if multiple placeholders are right after another and not separated by other characters than /
.
# / -> {controller => 'foo', action => 'bar'}
# /users -> {controller => 'users', action => 'bar'}
# /users/list -> {controller => 'users', action => 'list'}
$r->route('/:controller/:action')
->to(controller => 'foo', action => 'bar');
Special stash values like controller
and action
can also be placeholders, this allows for extremely flexible routes constructs.
Named Routes
Naming your routes will allow backreferencing in many kinds of helpers throughout the whole framework.
# /foo/abc -> {controller => 'foo', action => 'bar', name => 'abc'}
$r->route('/foo/:name')->name('test')
->to(controller => 'foo', action => 'bar');
# Generate URL "/foo/abc" for route "test"
$self->url_for('test');
# Generate URL "/foo/sebastian" for route "test"
$self->url_for('test', name => 'sebastian');
Nameless routes get an automatically generated one assigned that is simply equal to the route itself without non-word characters.
# /foo/bar ("foobar")
$r->route('/foo/bar')->to('test#stuff');
# Generate URL "/foo/bar"
$self->url_for('foobar');
To refer to the current route you can always use the reserved name current
.
# Generate URL for current route
$self->url_for('current');
HTTP Methods
The via
method of the route object allows only specific HTTP methods to pass.
# GET /bye -> {controller => 'foo', action => 'bye'}
# POST /bye -> undef
# DELETE /bye -> undef
$r->route('/bye')->via('get')->to(controller => 'foo', action => 'bye');
# GET /bye -> {controller => 'foo', action => 'bye'}
# POST /bye -> {controller => 'foo', action => 'bye'}
# DELETE /bye -> undef
$r->route('/bye')->via(qw/get post/)
->to(controller => 'foo', action => 'bye');
Nested Routes
It is also possible to build tree structures from routes to remove repetitive code. A route with children can't match on it's own though, only the actual endpoints of these nested routes can.
# /foo -> undef
# /foo/bar -> {controller => 'foo', action => 'bar'}
my $foo = $r->route('/foo')->to(controller => 'foo');
$foo->route('/bar')->to(action => 'bar');
The stash will simply move from route to route and newer values override old ones.
# /foo -> undef
# /foo/abc -> undef
# /foo/bar -> {controller => 'foo', action => 'bar'}
# /foo/baz -> {controller => 'foo', action => 'baz'}
# /foo/cde -> {controller => 'foo', action => 'abc'}
my $foo = $r->route('/foo')->to(controller => 'foo', action => 'abc');
$foo->route('/bar')->to(action => 'bar');
$foo->route('/baz')->to(action => 'baz');
$foo->route('/cde');
Mojolicious::Lite routes
Mojolicious::Lite routes are in fact just a small convenience layer around everything described above and also part of the normal router.
# GET /foo -> {controller => 'foo', action => 'abc'}
$r->get('/foo')->to(controller => 'foo', action => 'abc');
This makes the process of growing your Mojolicious::Lite prototypes into full Mojolicious applications very straightforward.
# POST /bar
$r->post('/bar' => sub {
my $self = shift;
$self->render(text => 'Just like a Mojolicious::Lite action!');
});
Even the more abstract concepts are available.
# GET /yada
# POST /yada
my $yada = $r->under('/yada');
$yada->get(sub {
my $self = shift;
$self->render(text => 'Hello!');
});
$yada->post(sub {
my $self = shift;
$self->render(text => 'Go away!');
});
ADVANCED
Less commonly used and more powerful features.
Waypoints
Waypoints are very similar to normal nested routes but can match even if they have children.
# /foo -> {controller => 'foo', action => 'baz'}
# /foo/bar -> {controller => 'foo', action => 'bar'}
my $foo = $r->waypoint('/foo')->to(controller => 'foo', action => 'baz');
$foo->route('/bar')->to(action => 'bar');
All children will be ignored if a waypoint matches.
Bridges
Bridges unlike nested routes and waypoints always match and result in additional dispatch cycles.
# /foo -> undef
# /foo/bar -> {controller => 'foo', action => 'baz'}
# {controller => 'foo', action => 'bar'}
my $foo = $r->bridge('/foo')->to(controller => 'foo', action => 'baz');
$foo->route('/bar')->to(action => 'bar');
The actual bridge code needs to return a true value or the dispatch chain will be broken, this makes bridges a very powerful tool for authentication.
# /foo -> undef
# /foo/bar -> {cb => sub {...}}
# {controller => 'foo', action => 'bar'}
my $foo = $r->bridge('/foo')->to(cb => sub {
my $self = shift;
# Authenticated
return 1 if $self->req->headers->header('X-Bender');
# Not authenticated
return;
});
$foo->route('/bar')->to(controller => 'foo', action => 'bar');
More Restrictive Placeholders
You can adjust the regular expressions behind placeholders to better suit your needs. Just make sure not to use ^
and $
or capturing groups (...)
, because placeholders become part of a larger regular expression internally, (?:...)
is fine though.
# /23 -> {controller => 'foo', action => 'bar', number => 23}
# /test -> undef
$r->route('/:number', number => qr/\d+/)
->to(controller => 'foo', action => 'bar');
# /23 -> undef
# /test -> {controller => 'foo', action => 'bar', name => 'test'}
$r->route('/:name', name => qr/[a-zA-Z]+/)
->to(controller => 'foo', action => 'bar');
This way you get easily readable routes and the raw power of regular expressions.
Shortcuts
You can also add your own shortcuts to make route generation more expressive.
# Simple "resource" shortcut
$r->add_shortcut(resource => sub {
my ($r, $name) = @_;
# Generate "/$name" route
my $resource = $r->route("/$name")->to("$name#");
# Handle POST requests
$resource->post->to('#create')->name("create_$name");
# Handle GET requests
$resource->get->to('#show')->name("show_$name");
return $resource;
});
# POST /user -> {controller => 'user', action => 'create'}
# GET /user -> {controller => 'user', action => 'show'}
$r->resource('user');
Shortcuts can lead to anything, routes, bridges or maybe even both. And watch out for quicksand!
Conditions
Sometimes you might need a little more power, for example to check the User-Agent
header in multiple routes. This is where conditions come into play, they are basically router plugins.
# Simple "User-Agent" condition
$r->add_condition(
agent => sub {
my ($r, $c, $captures, $pattern) = @_;
# User supplied regular expression
return unless $pattern && ref $pattern eq 'Regexp';
# Match "User-Agent" header and return true on success
my $agent = $c->req->headers->user_agent;
return 1 if $agent && $agent =~ $pattern;
# No success
return;
}
);
# /firefox_only (Firefox) -> {controller => 'foo', action => 'bar'}
$r->route('/firefox_only')->over(agent => qr/Firefox/)
->to(controller => 'foo', action => 'bar');
The method add_condition
registers the new condition in the router while over
actually applies it to the route.
Condition Plugins
You can also package your conditions as reusable plugins.
# Plugin
package Mojolicious::Plugin::WerewolfCondition;
use Mojo::Base 'Mojolicious::Plugin';
use Astro::MoonPhase;
sub register {
my ($self, $app) = @_;
# Add "werewolf" condition
$app->routes->add_condition(
werewolf => sub {
my ($r, $c, $captures, $days) = @_;
# Keep the werewolfs out!
return if abs(14 - (phase(time))[2]) > ($days / 2);
# It's ok, no werewolf
return 1;
}
);
}
1;
Now just load the plugin and you are ready to use the condition in all your applications.
# Application
package MyApp;
use Mojo::Base 'Mojolicious';
sub startup {
my $self = shift;
# Plugin
$self->plugin('werewolf_condition');
# Routes
my $r = $self->routes;
# /hideout (keep them out for 4 days after full moon)
$r->route('/hideout')->over(werewolf => 4)
->to(controller => 'foo', action => 'bar');
}
1;
Embedding Applications
You can easily embed whole applications simply by using them instead of a controller. This allows for example the use of the Mojolicious::Lite domain specific language in normal Mojolicious controllers.
# Controller
package MyApp::Bar;
use Mojolicious::Lite;
# /hello
get '/hello' => sub {
my $self = shift;
my $name = $self->param('name');
$self->render(text => "Hello $name!");
};
1;
With the detour
method which is very similar to to
, you can allow the route to partially match and use only the remaining path in the embedded application.
# /foo/*
$r->route('/foo')->detour('bar#', name => 'Mojo');
A minimal embeddable application is nothing more than a subclass of Mojo, containing a handler
method accepting Mojolicious::Controller objects.
package MyApp::Bar;
use Mojo::Base 'Mojo';
sub handler {
my ($self, $c) = @_;
$c->res->code(200);
my $name = $c->param('name');
$c->res->body("Hello $name!");
}
1;
You can also just use Mojolicious::Plugin::Mount to mount whole self-contained applications under a prefix.
use Mojolicious::Lite;
# Whole application mounted under "/prefix"
plugin mount => {'/prefix' => '/home/sri/myapp.pl'};
# Normal route
get '/' => sub { shift->render_text('Hello World!') };
app->start;
Application Plugins
Embedding Mojolicious applications is easy, but it gets even easier if you package the whole thing as a self contained reusable plugin.
# Plugin
package Mojolicious::Plugin::MyEmbeddedApp;
use Mojo::Base 'Mojolicious::Plugin';
sub register {
my ($self, $app) = @_;
# Automatically add route
$app->routes->route('/foo')->detour(app => EmbeddedApp::app());
}
package EmbeddedApp;
use Mojolicious::Lite;
get '/bar' => 'bar';
1;
__DATA__
@@ bar.html.ep
Hello World!
The app
stash value can be used for already instantiated applications. Now just load the plugin and you're done.
# Application
package MyApp;
use Mojo::Base 'Mojolicious';
sub startup {
my $self = shift;
# Plugin
$self->plugin('my_embedded_app');
}
1;
WebSockets
You can restrict access to WebSocket handshakes using the websocket
method.
# /ws (WebSocket handshake)
$r->websocket('/echo')->to(controller => 'foo', action => 'echo');
# Controller
package MyApp::Foo;
use Mojo::Base 'Mojolicious::Controller';
# Action
sub echo {
my $self = shift;
$self->on_message(sub {
my ($self, $message) = @_;
$self->send_message("echo: $message");
});
}
1;
IRIs
IRIs are handled transparently, that means paths are guaranteed to be unescaped and decoded to Perl characters.
use utf8;
# /☃ (unicode snowman) -> {controller => 'foo', action => 'snowman'}
$r->route('/☃')->to(controller => 'foo', action => 'snowman');
Just don't forget to use the utf8 pragma or you'll make the unicode snowman very sad.
Introspection
The routes
command can be used from the command line to list all available routes together with name and underlying regular expressions.
% script/myapp routes
/foo/:name GET fooname (?-xism:^/foo/([^\/\.]+))
/baz/*everything POST bazeverything (?-xism:^/baz/(.+))
/bar/(.test) * bartest (?-xism:^/bar/([^\/]+))
MORE
You can continue with Mojolicious::Guides now or take a look at the Mojolicious wiki http://github.com/kraih/mojo/wiki, which contains a lot more documentation and examples by many different authors.