Inspecting Catalyst

One of the convenient things about Catalyst is it lets you register controller methods as actions, so you don’t need a separate routing table of URIs to controller methods. A consequence of this though, is that when the web app gets large enough it can be tricky to keep track of all the different paths the app is responding to.

Catalyst’s chained dispatch promotes code reuse, but exacerbates the issue by obfuscating route matching. Catalyst also permits declaring controller methods which match an unlimited number of paths after a prefix; another recipe for unpredictablity.

Take a look at the MetaCPAN source code. Can you tell all of the routes it responds to?

As far as I know, the only way is to launch the app in debug mode and Catalyst will print a list of all the controller actions and their URIs. I suppose you could try parsing that output, but that feels like a hack. If we’re programming a web app, surely we should be able to programmatically retrieve all the routes we’ve created, without having to launch the app.

Catalyst::Plugin::ActionPaths

With that straw man sufficiently propped up, allow me to introduce Catalyst::Plugin::ActionPaths. I wrote it a while ago to implement some axiomatic tests at work which checked for misconfigured Catalyst routes.

The plugin adds the get_action_paths method to the Catalyst context object. The method returns an arrayref of the application’s Catalyst::Action objects. The way Catalyst’s routing works is it loops through every action object until it finds one that matches the request, or returns in failure.

To use the ActionPaths plugin on the MetaCPAN app I forked and cloned the repo, and added the ActionPaths plugin to the application class.

After installing Carton from the root project directory I ran:

$ carton install

Which installed of the applications dependencies into the ./local directory. This is a nice way to avoid clobbering your system or user-installed modules with the application’s dependencies.

I also had to install the libxml2-dev and node-less Ubuntu packages to provide all of the app’s dependencies.

Finally I wrote this script:

#!/usr/bin/env perl use v5 .16 ; use Cwd; use File::Basename; use File::Spec; my $root_dir; BEGIN { my $bin_dir = File::Basename::dirname(__FILE__); $root_dir = Cwd::abs_path(File::Spec -> catdir($bin_dir, File::Spec -> updir)); } use lib "$root_dir/local/lib/perl5" ; # carton installed deps use lib "$root_dir/lib" ; # root application dir use Catalyst::Test 'MetaCPAN::Web' ; my ($res, $c) = ctx_request( '/' ); for (@{$c -> get_action_paths}) { say join "\t" , $_ -> {class}, $_ -> {name}, $_ -> {path}; }

It begins by figuring out the root application directory, and adding the paths to the local Carton-installed and the MetaCPAN project modules (it uses lib to catch architecture specific nested paths).

It uses Catalyst::Test to load the MetaCPAN::Web application. Catalyst::Test exports the ctx_request method, which returns the Catalyst context object $c . From there I can call get_action_paths and print out all the routes served by MetaCPAN.

$ bin/dump-catalyst-paths MetaCPAN::Web::Controller::Root index / MetaCPAN::Web::Controller::Root default /... MetaCPAN::Web::Controller::About about /about/ MetaCPAN::Web::Controller::About contact /about/contact/ MetaCPAN::Web::Controller::About contributors /about/contributors/ MetaCPAN::Web::Controller::About development /about/development/ MetaCPAN::Web::Controller::About faq /about/faq/ MetaCPAN::Web::Controller::About meta_hack /about/meta_hack/ MetaCPAN::Web::Controller::About metadata /about/metadata/ MetaCPAN::Web::Controller::About missing_modules /about/missing_modules/ MetaCPAN::Web::Controller::About resources /about/resources/ MetaCPAN::Web::Controller::About sponsors /about/sponsors/ MetaCPAN::Web::Controller::About stats /about/stats/ MetaCPAN::Web::Controller::Author index /author/* # output truncated

An asterisk in the path is a placeholder. An ellipses means the path accepts unlimited(!) placeholders.

In this case I’m just printing the controller methods and URIs they match, but you could implement all kinds of checks on the Catalyst::Action objects to detect violations of agreed upon development best practices.

A better way

The solution above works, but it feels a bit gross. I’ve added a plugin to the Catalyst app which the app doesn’t actually use. The script fakes a request to the app just to get $c . I’m using a test module but running no tests. Surely there is a better way.

Typically, Catalyst applications call the setup method in the application module (for MetaCPAN that’s MetaCPAN::Web). The setup method bootstraps the web application, doing things like configuring directories, initializing the logger, loading plugins and building the request dispatcher. These are stored in the application package which is a singleton.

Catalyst::Plugin::ActionPaths::get_action_paths uses the Catalyst context to get the dispatcher object, which is all it needs to extract the paths from the Catalyst app. So instead of using request_ctx to get the context to get the dispatcher, I can just stand up the application myself and pluck the dispatcher out of the application package:

require MetaCPAN::Web; # calls setup() my $dispatcher = MetaCPAN::Web -> dispatcher;

Now if I re-write the get_action_paths method to just use the dispatcher object directly, I can extract all the paths from the app without using request_ctx :

my $actions = get_action_paths($dispatcher); for (@{$actions}) { say join "\t" , $_ -> {class}, $_ -> {name}, $_ -> {path}; }

This works. Of course if I can dynamically load the MetaCPAN app and extract its routes, then I can do that for any Catalyst app. That’s what dump-catalyst-paths does. To dump a Catalyst app’s routes just provide the package name and any additional paths to include:

$ ./dump-catalyst-routes MetaCPAN::Web lib local/lib/perl5

Postscript

We’re just a couple of months past the 10th anniversary of the publication of Catalyst: The Definitive Guide. Two of our core applications at work are Catalyst apps. As one of Perl’s premier MVC apps, it’s remarkable how resilient it’s been. That’s a testament to the implementation (which got a lot of things right) and more recently the work done by its maintainer John Napiorkowski. Thanks John!

If you’re considering web application programming with Perl, the Dancer2, Mojolicious and Kelp frameworks are modern alternatives to Catalyst.